Quest for the right Drug
סימדקו 100מ"ג/ 150מ"ג ו- 150מ"ג SYMDEKO 100MG/ 150MG & 150MG (IVACAFTOR, TEZACAFTOR)
תרופה במרשם
תרופה בסל
נרקוטיקה
ציטוטוקסיקה
צורת מתן:
פומי : PER OS
צורת מינון:
טבליות מצופות פילם : FILM COATED TABLETS
עלון לרופא
מינוניםPosology התוויות
Indications תופעות לוואי
Adverse reactions התוויות נגד
Contraindications אינטראקציות
Interactions מינון יתר
Overdose הריון/הנקה
Pregnancy & Lactation אוכלוסיות מיוחדות
Special populations תכונות פרמקולוגיות
Pharmacological properties מידע רוקחי
Pharmaceutical particulars אזהרת שימוש
Special Warning עלון לרופא
Physicians Leaflet
Pharmacological properties : תכונות פרמקולוגיות
Pharmacodynamic Properties
13.2 Pharmacodynamics Effects on Sweat Chloride In Trial 1 (patients age 12 years and older who were homozygous for the F508del mutation), the treatment difference between SYMDEKO and placebo in mean absolute change from baseline in sweat chloride through Week 24 was -10.1 mmol/L (95% CI: -11.4, -8.8). In Trial 2 (patients age 12 years and older who were heterozygous for the F508del mutation and a second mutation predicted to be responsive to tezacaftor/ivacaftor), the treatment difference in mean absolute change from baseline in sweat chloride through Week 8 was -9.5 mmol/L (95% CI: -11.7, -7.3) between SYMDEKO and placebo, and -4.5 mmol/L (95% CI: -6.7, -2.3) between ivacaftor and placebo. In Trial 4 (patients age 6 to less than 12 years) a reduction in sweat chloride was observed from baseline through Week 4 and sustained throughout the 24-week treatment period. Mean absolute change in sweat chloride from baseline through Week 24 was -14.5 mmol/L (95% CI: -17.4, -11.6). Cardiac Electrophysiology At a dose 3 times the maximum approved recommended dose, tezacaftor does not prolong the QT interval to any clinically relevant extent. In a separate study of ivacaftor evaluating doses up to 3 times the maximum approved recommended dose, ivacaftor does not prolong the QT interval to any clinically relevant extent.
Pharmacokinetic Properties
13.3 Pharmacokinetics The pharmacokinetics of tezacaftor and ivacaftor are similar between healthy adult volunteers and patients with CF. Following once-daily dosing of tezacaftor and twice-daily dosing of ivacaftor in patients with CF, plasma concentrations of tezacaftor and ivacaftor reach steady-state within 8 days and within 3 to 5 days, respectively, after starting treatment. At steady-state, the accumulation ratio is approximately 1.5 for tezacaftor and 2.2 for ivacaftor. Exposures of tezacaftor (administered alone or in combination with ivacaftor) increased in an approximately dose-proportional manner with increasing doses from 10 mg to 300 mg once daily. Key pharmacokinetic parameters for tezacaftor and ivacaftor at steady state are shown in Table 7. SYMD-SPC-0923-V1 Page 8 of 15 Table 7: Mean (SD) Pharmacokinetic Parameters of Tezacaftor and Ivacaftor at Steady State in Patients with CF AUC0-24h or AUC0-12h Drug Cmax (mcg/mL) Effective t½ (h) (mcg∙h/mL)* Tezacaftor 100 mg once Tezacaftor 5.95 (1.50) 15.0 (3.44) 84.5 (27.8) daily/ivacaftor 150 mg Ivacaftor 1.17 (0.424) 13.7 (6.06) 11.3 (4.60) every 12 hours *AUC0-24h for tezacaftor and AUC0-12h for ivacaftor Absorption After a single dose in healthy subjects in the fed state, tezacaftor was absorbed with a median (range) time to maximum concentration (tmax) of approximately 4 hours (2 to 6 hours). The median (range) tmax of ivacaftor was approximately 6 hours (3 to 10 hours) in the fed state. When a single dose of tezacaftor/ivacaftor was administered with fat-containing foods, tezacaftor exposure was similar and ivacaftor exposure was approximately 3 times higher than when taken in a fasting state. Distribution Tezacaftor is approximately 99% bound to plasma proteins, primarily to albumin. Ivacaftor is approximately 99% bound to plasma proteins, primarily to alpha 1-acid glycoprotein and albumin. After oral administration of tezacaftor 100 mg once daily/ivacaftor 150 mg every 12 hours in patients with CF in the fed state, the mean (±SD) for apparent volume of distribution of tezacaftor and ivacaftor was 271 (157) L and 206 (82.9) L, respectively. Neither tezacaftor nor ivacaftor partition preferentially into human red blood cells. Elimination After oral administration of tezacaftor 100 mg once daily/ivacaftor 150 mg every 12 hours in patients with CF in the fed state, the mean (±SD) for apparent clearance values of tezacaftor and ivacaftor were 1.31 (0.41) and 15.7 (6.38) L/h, respectively. After steady-state dosing of tezacaftor in combination with ivacaftor in patients with CF, the effective half-lives of tezacaftor and ivacaftor were approximately 15 (3.44) and 13.7 (6.06) hours, respectively. Metabolism Tezacaftor is metabolized extensively in humans. In vitro data suggested that tezacaftor is metabolized mainly by CYP3A4 and CYP3A5. Following oral administration of a single dose of 100 mg 14C-tezacaftor to healthy male subjects, M1, M2, and M5 were the three major circulating metabolites of tezacaftor in humans. M1 has the similar potency to that of tezacaftor and is considered pharmacologically active. M2 is much less pharmacologically active than tezacaftor or M1, and M5 is not considered pharmacologically active. Another minor circulating metabolite, M3, is formed by direct glucuronidation of tezacaftor. Ivacaftor is also metabolized extensively in humans. In vitro and in vivo data indicate that ivacaftor is metabolized primarily by CYP3A4 and CYP3A5. M1 and M6 are the two major metabolites of ivacaftor in humans. M1 has approximately one-sixth the potency of ivacaftor and is considered pharmacologically active. M6 is not considered pharmacologically active. Excretion Following oral administration of 14C-tezacaftor, the majority of the dose (72%) was excreted in the feces (unchanged or as the M2 metabolite) and about 14% was recovered in urine (mostly as M2 metabolite), resulting in a mean overall recovery of 86% up to 21 days after the dose. Less than 1% of the administrated dose was excreted in urine as unchanged tezacaftor, showing that renal excretion is not the major pathway of tezacaftor elimination in humans. Following oral administration of ivacaftor alone, the majority of ivacaftor (87.8%) is eliminated in the feces after metabolic conversion. There was minimal elimination of ivacaftor and its metabolites in urine (only 6.6% of total radioactivity was recovered in the urine), and there was negligible urinary excretion of ivacaftor as unchanged drug. Specific Populations Based on population PK analyses, the PK exposure parameters of tezacaftor/ivacaftor in children and adolescents (ages 6 to <18 years) are similar to the AUCss range observed in adults when given in combination. Pediatric patients age 6 to less than 12 years Table 8: Tezacaftor/ivacaftor exposure by age group, mean (SD) Age Group Dose tezacaftor AUCss ivacaftor AUCss mcg∙h/mL* mcg∙h/mL* 6 to <12 years ^ 71.3 (28.3) 8.5 (3.34) 6 to <12 years (<30 kg) tezacaftor 50 mg/ ivacaftor 75 mg 56.7 (22.3) 6.92 (2.07) 6 to <12 years (≥30 kg) ^ tezacaftor 100 mg/ ivacaftor 150 mg 92.7 (21.9) 10.8 (3.52) ^ Exposures in ≥30 kg weight range are predictions derived from the population PK model *AUC 0-24h for tezacaftor and AUC 0-12h for ivacaftor Pediatric patients age 12 to less than 18 years Following oral administration of SYMDEKO tablets, tezacaftor 100 mg once daily/ivacaftor 150 mg every 12 hours, the mean (±SD) AUCss for tezacaftor and ivacaftor was 97.1 (35.8) mcg∙h/mL and 11.4 (5.50) mcg∙h/mL, respectively, similar to the mean AUCss in adult patients administered SYMDEKO tablets, tezacaftor 100 mg once daily/ivacaftor 150 mg every 12 hours. Patients with Hepatic Impairment Following multiple doses of tezacaftor and ivacaftor for 10 days, patients with moderately impaired hepatic function (Child-Pugh Class B, score 7-9) had an approximately 36% increase in AUC and a 10% increase in Cmax for tezacaftor, and a 1.5-fold increase in ivacaftor AUC compared with healthy subjects matched for SYMD-SPC-0923-V1 Page 9 of 15 demographics. In a separate study, patients with moderately impaired hepatic function (Child-Pugh Class B, score 7-9) had similar ivacaftor Cmax, but an approximately 2.0-fold increase in ivacaftor AUC0-∞ compared with healthy subjects matched for demographics. Pharmacokinetic studies have not been conducted in patients with mild (Child-Pugh Class A, score 5-6) or severe hepatic impairment (Child-Pugh Class C, score 10 - 15) receiving SYMDEKO. The magnitude of increase in exposure in patients with severe hepatic impairment is unknown but is expected to be higher than that observed in patients with moderate hepatic impairment [see Dosage and Administration (5.3) and Use in Specific Populations (10.5)]. Patients with Renal Impairment SYMDEKO has not been studied in patients with moderate or severe renal impairment (creatinine clearance ≤30 mL/min) or in patients with end-stage renal disease. In a human pharmacokinetic study with tezacaftor alone, there was minimal elimination of tezacaftor and its metabolites in urine (only 13.7% of total radioactivity was recovered in the urine with 0.79% as unchanged drug). In a human pharmacokinetic study with ivacaftor alone, there was minimal elimination of ivacaftor and its metabolites in urine (only 6.6% of total radioactivity was recovered in the urine). In population pharmacokinetic analysis, data from 665 patients on tezacaftor or tezacaftor in combination with ivacaftor in clinical trials indicated that mild renal impairment (N=147; eGFR 60 to less than 90 mL/min/1.73 m2) and moderate renal impairment (N=7; eGFR 30 to less than 60 mL/min/1.73 m2) did not affect the clearance of tezacaftor significantly [see Use in Specific Populations (10.6)]. Male and Female Patients The pharmacokinetic parameters of tezacaftor and ivacaftor are similar in males and females. Drug Interactions Studies Drug interaction studies were performed with SYMDEKO and other drugs likely to be co-administered or drugs commonly used as probes for pharmacokinetic interaction studies [see Drug Interactions (9)]. Potential for Tezacaftor/Ivacaftor to Affect Other Drugs Clinical studies (with rosiglitazone and desipramine – see Table 9) showed that ivacaftor is not an inhibitor of CYP2C8 or CYP2D6. Based on in vitro results, ivacaftor has the potential to inhibit CYP3A and P-gp, and may also inhibit CYP2C9. In vitro, ivacaftor was not an inducer of CYP isozymes. Ivacaftor is not an inhibitor of transporters OATP1B1, OATP1B3, OCT1, OCT2, OAT1, or OAT3. Based on in vitro results, tezacaftor has a low potential to inhibit CYP1A2, CYP2B6, CYP2C8, CYP2C9, CYP2C19, CYP2D6, and CYP3A4. Tezacaftor has a low potential to induce CYP3A, but it is not an inducer of CYP1A2 and CYP2B6. Tezacaftor has a low potential to inhibit transporters P-gp, BCRP, OATP1B3, OCT2, OAT1, or OAT3. Clinical studies with midazolam showed that SYMDEKO is not an inhibitor of CYP3A. Co-administration of SYMDEKO with digoxin, a sensitive P-gp substrate, increased digoxin exposure by 1.3-fold. Co-administration of SYMDEKO with an ethinyl estradiol/ norethindrone oral contraceptive had no significant effect on the exposures of the hormonal contraceptives. Co-administration of SYMDEKO with pitavastatin, an OATP1B1 substrate, had no clinically relevant effect on the exposure of pitavastatin. The effects of tezacaftor and ivacaftor (or ivacaftor alone) on the exposure of co-administered drugs are shown in Table 9 [see Drug Interactions (9)]. Potential for Other Drugs to Affect Tezacaftor/Ivacaftor In vitro studies showed that ivacaftor and tezacaftor were substrates of CYP3A enzymes (i.e., CYP3A4 and CYP3A5). Exposure to ivacaftor and tezacaftor will be reduced by concomitant CYP3A inducers and increased by concomitant CYP3A inhibitors. In vitro studies showed that tezacaftor is a substrate for the uptake transporter OATP1B1, and efflux transporters P-gp and BCRP. Tezacaftor is not a substrate for OATP1B3. In vitro studies showed that ivacaftor is not a substrate for OATP1B1, OATP1B3, or P-gp. The effects of co-administered drugs on the exposure of tezacaftor and ivacaftor (or ivacaftor alone) are shown in Table 10 [see Dosage and Administration (5.4) and Drug Interactions (9)]. SYMD-SPC-0923-V1 Page 10 of 15 Table 9: Impact of Tezacaftor/Ivacaftor or Ivacaftor on Other Drugs Mean Ratio (90% CI) of Other Dose and Schedule Drugs No Effect=1.0 Drug Dose TEZ/IVA or IVA Effect on Drug PK AUC Cmax TEZ 100 mg/IVA 150 mg 1.12 1.13 Midazolam 2 mg single oral dose every morning + IVA Midazolam (1.01, 1.25) (1.01, 1.25) 150 mg every evening TEZ 100 mg/IVA 150 mg 1.30 1.32 Digoxin 0.5 mg single dose every morning + IVA ↑ Digoxin (1.17, 1.45) (1.07, 1.64) 150 mg every evening 1.12 1.15 Ethinyl estradiol/ TEZ 100 mg/IVA 150 mg Ethinyl estradiol (1.03, 1.22) (0.99, 1.33) Oral Contraceptive Norethindrone every morning + IVA 0.035 mg/1.0 mg once daily 150 mg every evening 1.05 1.01 Norethindrone (0.98, 1.12) (0.87, 1.19) TEZ 100 mg/IVA 150 mg 1.24 Pitavastatin 2 mg single dose every morning + IVA ↑ Pitavastatin* 0.977 (1.17, 1.31) 150 mg every evening (0.841, 1.14) 0.975 0.928 Rosiglitazone 4 mg single oral dose IVA 150 mg twice daily Rosiglitazone (0.897, 1.06) (0.858, 1.00) 1.04 1.00 Desipramine 50 mg single dose IVA 150 mg twice daily Desipramine (0.985, 1.10) (0.939; 1.07) ↑=increase, =decrease, =no change. CI=Confidence interval; TEZ=tezacaftor; IVA=ivacaftor; PK=Pharmacokinetics * Effect is not clinically significant – no dose adjustment is necessary Table 10: Impact of Other Drugs on Tezacaftor/Ivacaftor or Ivacaftor Mean Ratio (90% CI) of Dose and Schedule Tezacaftor and Ivacaftor No Effect=1.0 Effect on TEZ/IVA Drug Dose TEZ/IVA or IVA AUC Cmax PK 4.02 2.83 200 mg twice a day on ↑ Tezacaftor TEZ 25 mg + IVA 50 mg (3.71, 4.63) (2.62, 3.07) Itraconazole Day 1, followed by 200 mg once daily 15.6 8.60 once daily ↑ Ivacaftor (13.4, 18.1) (7.41, 9.98) 1.08 1.05 Tezacaftor TEZ 50 mg + IVA (1.03, 1.13) (0.99, 1.11) Ciprofloxacin 750 mg twice daily 150 mg twice daily 1.17 1.18 ↑ Ivacaftor* (1.06, 1.30) (1.06, 1.31) 1.01 1.01 Norethindrone/ethinyl TEZ 100 mg/IVA 150 mg Tezacaftor (0.963, 1.05) (0.933, 1.09) Oral Contraceptive estradiol 1.0 mg/0.035 mg every morning + IVA once daily 150 mg every evening 1.03 1.03 Ivacaftor (0.960, 1.11) (0.941, 1.14) 0.114 0.200 Rifampin 600 mg once daily IVA 150 mg single dose Ivacaftor (0.097, 0.136) (0.168, 0.239) 400 mg single dose on 2.95 2.47 Fluconazole Day 1, followed by 200 mg IVA 150 mg twice daily ↑ Ivacaftor (2.27, 3.82) (1.93, 3.17) once daily ↑=increase, =decrease, =no change. CI=Confidence interval; TEZ=tezacaftor; IVA=ivacaftor; PK=Pharmacokinetics *Effect is not clinically significant – no dose adjustment is necessary
פרטי מסגרת הכללה בסל
א. התרופה תינתן לטיפול בחולי לייפת כיסתית (CF- Cystic fibrosis) העונים על אחד מאלה:1. הומוזיגוטיים למוטציה מסוג F508del בגן CFTR; 2. חולים הנושאים לפחות מוטציה אחת בגן ה- CFTR אשר מגיבה לקומבינציה הטיפולית Tezacaftor+Ivacaftor בהתבסס על תוצאות מחקרים קליניים ו/או מחקרי In-Vitro.ב. התרופה תינתן לחולים בני שש שנים ומעלה שטרם עברו השתלת ריאה.ג. מתן התרופה ייעשה לפי מרשם של רופא מומחה ברפואת ריאות.
מסגרת הכללה בסל
התוויות הכלולות במסגרת הסל
התוויה | תאריך הכללה | תחום קליני | Class Effect | מצב מחלה |
---|---|---|---|---|
לייפת כיסתית בחולים הנושאים לפחות מוטציה אחת בגן ה- CFTR אשר מגיבה לקומבינציה הטיפולית Tezacaftor+Ivacaftor בהתבסס על תוצאות מחקרים קליניים ו/או מחקרי In-Vitro. | 16/01/2019 | רפואת ריאות | לייפת כיסתית, ציסטיק פיברוזיס, CF, Cystic fibrosis | |
לייפת כיסתית בחולים הומוזיגוטיים למוטציה מסוג F508del בגן CFTR | 16/01/2019 | רפואת ריאות | לייפת כיסתית, CF, Cystic fibrosis, ציסטיק פיברוזיס |
שימוש לפי פנקס קופ''ח כללית 1994
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16/01/2019
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סימדקו 100מ"ג/ 150מ"ג ו- 150מ"ג