Find information on thousands of medical conditions and prescription drugs.

Tikosyn

Dofetilide is a class III antiarrhythmic agent that is approved by the FDA for the maintenance of sinus rhythm in individuals prone to the formation of atrial fibrillation and flutter, and for the chemical cardioversion to sinus rhythm from atrial fibrillation and flutter. more...

Home
Diseases
Medicines
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
Oxytetracycline
Phentermine
Tacrine
Tacrolimus
Tagamet
Talbutal
Talohexal
Talwin
Tambocor
Tamiflu
Tamoxifen
Tamsulosin
Tao
Tarka
Taurine
Taxol
Taxotere
Tazarotene
Tazobactam
Tazorac
Tegretol
Teicoplanin
Telmisartan
Temazepam
Temocillin
Temodar
Temodar
Temozolomide
Tenex
Teniposide
Tenoretic
Tenormin
Tenuate
Terazosin
Terbinafine
Terbutaline
Terconazole
Terfenadine
Teriparatide
Terlipressin
Tessalon
Testosterone
Tetrabenazine
Tetracaine
Tetracycline
Tetramethrin
Thalidomide
Theo-24
Theobid
Theochron
Theoclear
Theolair
Theophyl
Theophyl
Theostat 80
Theovent
Thiamine
Thiomersal
Thiopental sodium
Thioridazine
Thorazine
Thyroglobulin
Tiagabine
Tianeptine
Tiazac
Ticarcillin
Ticlopidine
Tikosyn
Tiletamine
Timolol
Timoptic
Tinidazole
Tioconazole
Tirapazamine
Tizanidine
TobraDex
Tobramycin
Tofranil
Tolazamide
Tolazoline
Tolbutamide
Tolcapone
Tolnaftate
Tolterodine
Tomoxetine
Topamax
Topicort
Topiramate
Tora
Toradol
Toremifene
Tracleer
Tramadol
Trandate
Tranexamic acid
Tranxene
Tranylcypromine
Trastuzumab
Trazodone
Trenbolone
Trental
Trest
Tretinoin
Triacetin
Triad
Triamcinolone
Triamcinolone hexacetonide
Triamterene
Triazolam
Triclabendazole
Triclosan
Tricor
Trifluoperazine
Trilafon
Trileptal
Trimetazidine
Trimethoprim
Trimipramine
Trimox
Triprolidine
Triptorelin
Tritec
Trizivir
Troglitazone
Tromantadine
Trovafloxacin
Tubocurarine chloride
Tussionex
Tylenol
Tyrosine
U
V
W
X
Y
Z

The chemical name for dofetilide is N-- methanesulphonamide. It is marketed under the trade name Tikosyn® by Pfizer, and is available in the United States in capsules containing 125, 250, and 500 µg of dofetilide. Due to the pro-arrhythmic potential of dofetilide, it is only available by prescription by physicians who have undergone specific training in the risks of treatment with dofetilide. In addition, it is only available by mail order or through specially trained local pharmacies to individuals who are prescribed dofetilide by a physician who is registered as being able to prescribe the pharmaceutical.

The elimination half-life of dofetilide is roughly 10 hours, however this is variable based on many physiologic factors (most significantly creatinine clearance), and ranges from 4.8 to 13.5 hours.

Mechanism of action

Dofetilide works by selectively blocking the rapid component of the delayed rectifier outward potassium current (IKr).

This causes prolongation of the effective refractory period of accessory pathways (both anterograde and retrograde conduction in the accessory pathway). It is this selective action on accessory pathways that makes dofetilide effective in the treatment of atrial fibrillation and flutter.

Dofetilide does not effect Vmax (The slope of the upstroke of phase 0 depolarization), conduction velocity, or the resting membrane potential.

There is a dose-dependant increase in the QT interval and the corrected QT interval (QTc). Because of this, many practitioners will initiate dofetilide therapy only on individuals under telemetry monitoring or if serial EKG measurements of QT and QTc can be performed.

Metabolism

A steady-state plasma level of dofetilide is achieved in 2-3 days.

80% of dofetilide is excreted by the kidneys, so the dose of dofetilide should be adjusted in individuals with renal insufficiency, based on creatinine clearance.

In the kidneys, dofetilide is eliminated via cation exchange (secretion). Agents that interfere with the renal cation exchange system, such as verapamil, cimetidine, hydrochlorothiazine, itraconazole, ketoconazole, prochlorperazine, and trimethoprim should not be administered to individuals taking dofetilide.

About 20 percent of dofetilide is metabolized in the liver via the CYP3A4 isoenzyme of the Cytochrome P450 enzyme system. Drugs that interfere with the activity of the CYP3A4 isoenzyme can increase serum dofetilide levels. If the renal cation exchange system is interfered with (as with the medications listed above), a larger percentage of dofetilide is cleared via the CYP3A4 isoenzyme system.

Read more at Wikipedia.org


[List your site here Free!]


Dofetilide therapy: in patients with atrial fibrillation and pacemakers/defibrillators
From CHEST, 10/1/05 by Pramod M. Deshmukh

PURPOSE: Dofetilide (Tikosyn) treatment for atrial arrhythmias requires initiation of the drug in the hospital, careful attention to multiple QTc intervals, and adherence to standard guidelines. Ventricular pacing, by widening the QRS interval, can prolong the QTc interval. As no data exists regarding monitoring of the QTc interval in patients with ventricular pacing, our objective was to assess the effect of ventricular pacing on QTc intervals in patients receiving dofetilide.

METHODS: Over a two year period, 119 patients including 50 patients with implanted device (ID), [permanent pacemaker (PPM), [+ or -] internal cardioverter defibrillator (ICD)] and 69 patients without ID were admitted for initiation of dofetilide using institutional protocol. Baseline and serial QRS intervals and QTC intervals (with manual correction) were utilized to guide drug therapy. In patients with ID (PPM [+ or -] ICD), longer QTC intervals were accepted (in patients with PPM due to QRS widening; in the ICD group due to perceived safety) to achieve therapeutic drug effect.

RESULTS: Fifty patients with ID (mean age 71.7 yrs), 68% with a history of antiarrhythmic therapy (AAR), were compared to 69 patients without ID (mean age 61.7 yrs), 50% of whom also had history of AAR. Their ECG parameters are shown in Table 1. Within the group with ID, QRS (duration) and QTc intervals were significantly longer than in PPM category. In each group, 96% of the patients were discharged to home in sinus rhythm and 4% of the patients required dofetilide to be discontinued due to torsade de pointes. After mean follow-up of 65 [+ or -] 30 weeks in the ICD group, only one patient required discontinuation of dofetilide treatment due to torsade de pointes. None of the patients experienced a fatal outcome.

CONCLUSION: Ventricular pacing is associated with significant QRS widening and, therefore, prolongation of QTc interval.

CLINICAL IMPLICATIONS: Maximum limit of 500 msc. for QTc interval used for patients without ID may be safely extended by an additional 30 msc. in patients with ID and dofetilide therapy.

DISCLOSURE: Pramod Deshmukh, None.

Pramod M. Deshmukh MD * Vera Hackett Sharad Chandrika MD Elizabeth Miller Guthrie Healthcare System, Sayre, PA

COPYRIGHT 2005 American College of Chest Physicians
COPYRIGHT 2005 Gale Group

Return to Tikosyn
Home Contact Resources Exchange Links ebay