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איקלוסיג 15 מ"ג ICLUSIG 15 MG (PONATINIB AS HYDROCHLORIDE)
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תרופה בסל
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פומי : PER OS
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טבליות מצופות : COATED TABLETS
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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
5.1 Pharmacodynamic properties Pharmacotherapeutic group: antineoplastic agents, protein kinase inhibitors, ATC code: L01EA05 Ponatinib is a potent pan BCR-ABL inhibitor with structural elements, including a carbon-carbon triple-bond, that enable high affinity binding to native BCR-ABL and mutant forms of the ABL kinase. Ponatinib inhibits the tyrosine kinase activity of ABL and T315I mutant ABL with IC50 values of 0.4 and 2.0 nM, respectively. In cellular assays, ponatinib was able to overcome imatinib, dasatinib, and nilotinib resistance mediated by BCR-ABL kinase domain mutations. In preclinical mutagenesis studies, 40 nM was determined as the concentration of ponatinib sufficient to inhibit viability of cells expressing all tested BCR-ABL mutants by > 50% (including T315I) and suppress the emergence of mutant clones. In a cell-based accelerated mutagenesis assay, no mutation in BCR-ABL was detected that could confer resistance to 40 nM ponatinib. Ponatinib elicited tumour shrinkage and prolonged survival in mice bearing tumours expressing native or T315I mutant BCR-ABL. At doses of 30 mg or greater plasma steady state trough concentrations of ponatinib typically exceed 21 ng/mL (40 nM). At doses of 15 mg or greater, 32 of 34 patients (94%) demonstrated a ≥ 50% reduction of CRK-like (CRKL) phosphorylation, a biomarker of BCR-ABL inhibition, in peripheral blood mononuclear cells. Ponatinib inhibits the activity of other clinically relevant kinases with IC50 values below 20 nM and has demonstrated cellular activity against RET, FLT3, and KIT and members of the FGFR, PDGFR, and VEGFR families of kinases. Clinical efficacy and safety The safety and efficacy of Iclusig in CML and Ph+ ALL patients who were resistant or intolerant to prior tyrosine kinase inhibitor (TKI) therapy were evaluated in a single-arm, open-label, international, multicenter trial. All patients were administered 45 mg of Iclusig once-daily with the possibility of dose de-escalations and dose interruptions followed by dose resumption and re-escalation. Patients were assigned to one of six cohorts based on disease phase (CP-CML; AP-CML; or BP-CML/Ph+ ALL), resistance or intolerance (R/I) to dasatinib or nilotinib, and the presence of the T315I mutation. The trial is ongoing. Resistance in CP-CML was defined as failure to achieve either a complete haematological response (by 3 months), a minor cytogenetic response (by 6 months), or a major cytogenetic response (by 12 months) while on dasatinib or nilotinib. CP-CML patients who experienced a loss of response or development of a kinase domain mutation in the absence of a complete cytogenetic response or progression to AP-CML or BP-CML at any time on dasatinib or nilotinib were also considered resistant. Resistance in AP-CML and BP-CML/Ph+ ALL was defined as failure to achieve either a major haematological response (AP-CML by 3 months, BP-CML/Ph+ ALL by 1 month), loss of major haematological response (at any time), or development of kinase domain mutation in the absence of a major haematological response while on dasatinib or nilotinib. Intolerance was defined as the discontinuation of dasatinib or nilotinib due to toxicities despite optimal management in the absence of a complete cytogenetic response for CP CML patients or major haematological response for AP CML, BP CML, or Ph+ ALL patients. The primary efficacy endpoint in CP-CML was major cytogenetic response (MCyR), which included complete and partial cytogenetic responses (CCyR and PCyR). The secondary efficacy endpoints in CP-CML were complete haematological response (CHR) and major molecular response (MMR). The primary efficacy endpoint in AP-CML and BP-CML/Ph+ ALL was major haematological response (MaHR), defined as either a complete haematological response (CHR) or no evidence of leukaemia (NEL). The secondary efficacy endpoints in AP-CML and BP-CML/Ph+ ALL were MCyR and MMR. For all patients, additional secondary efficacy endpoints included: confirmed MCyR, time to response, duration of response, progression free survival, and overall survival. Also, post-hoc analyses to assess the relationship of shorter-term cytogenetic (MCyR) and molecular (MMR) response outcomes with longer-term outcomes of PFS and OS, maintenance of response (MCyR and MMR) after dose reductions, and PFS and OS by Arterial Occlusive Event status were conducted. The trial enrolled 449 patients of which 444 were eligible for analysis: 267 CP-CML patients (R/I Cohort: n=203, T315I Cohort: n=64), 83 AP-CML patients (R/I Cohort: n=65, T315I Cohort: n=18), 62 BP-CML (R/I Cohort: n=38, T315I Cohort: n=24), and 32 Ph+ ALL patients (R/I Cohort: n=10, T315I Cohort: n=22). A prior MCyR or better (MCyR, MMR, or CMR) to dasatinib or nilotinib was only achieved in 26% patients with CP-CML and a prior MaHR or better (MaHR, MCyR, MMR, or CMR) was only achieved in 21%, and 24% of AP-CML, and BP-CML/Ph+ALL patients, respectively. Baseline demographic characteristics are described in Table 6 below. Table 6 Demographics and disease characteristics Total safety population Patient characteristics at entry N=449 Age Median, years (range) 59 (18 - 94) Gender, n (%) Male 238 (53%) Race, n (%) Asian 59 (13%) Black/African American 25 (6%) White 352 (78%) Other 13 (3%) ECOG Performance Status, n (%) ECOG=0 or 1 414 (92%) Disease history Median time from diagnosis to first dose, years (range) 6.09 (0.33 - 28.47) Resistant to Prior TKI Therapy a *, n (%) 374 (88%) Prior TKI therapy– number of regimens, n (%) 1 32 (7%) 2 155 (35%) ≥3 262 (58%) BCR-ABL mutation detected at entry, n (%)b None 198 (44%) 1 192 (43%) ≥2 54 (12%) * of 427 patients reporting prior TKI therapy with dasatinib or nilotinib a b Of the patients with one or more BCR-ABL kinase domain mutations detected at entry, 37 unique mutations were detected. Overall, 55% of patients had one or more BCR-ABL kinase domain mutation at entry with the most frequent being: T315I (29%), F317L (8%), E255K (4%) and E359V (4%). In 67% of CP-CML patients in the R/I cohort, no mutations were detected at study entry. Efficacy results are summarized in Table 7, Table 8, and Table 9. Table 7 Efficacy of Iclusig in resistant or intolerant chronic phase CML patients Overall Resistant or Intolerant (N=267) R/I T315I Cohort Cohort (N=203) (N=64) Cytogenetic Response Major (MCyR) a % 55% 51% 70% (95% CI) (49-62) (44-58) (58-81) Complete (CCyR) % 46% 40% 66% (95% CI) (40-52) (33-47) (53-77) Major Molecular Response b % 40% 35% 58% (95% CI) (35-47) (28-42) (45-70) a Primary endpoint for CP-CML Cohorts was MCyR, which combines both complete (No detectable Ph+ cells) and partial (1% to 35% Ph+ cells) cytogenetic responses. b Measured in peripheral blood. Defined as a ≤ 0.1% ratio of BCR-ABL to ABL transcripts on the International Scale (IS) (ie, ≤ 0.1% BCR-ABLIS; patients must have the b2a2/b3a2 (p210) transcript), in peripheral blood measured by quantitative reverse transcriptase polymerase chain reaction (qRT PCR). Database cutoff date 06 February 2017 CP-CML patients who received fewer prior TKIs attained higher cytogenetic, haematological, and molecular responses. Of the CP-CML patients previously treated with one, two, three or four prior TKIs, 75% (12/16), 68% (66/97), 44% (63/142), and 58% (7/12)) achieved a MCyR while on Iclusig, respectively. Of the CP-CML patients with no mutation detected at entry, 49% (66/136) achieved a MCyR. For every BCR-ABL mutation detected in more than one CP-CML patient at entry, a MCyR was achieved following treatment with Iclusig. In CP-CML patients who achieved MCyR, the median time to MCyR was 2.8 months (range: 1.6 to 11.3 months) and in patients who achieved MMR, the median time to MMR was 5.5 months (range: 1.8 to 55.5 months). At the time of updated reporting with minimum follow-up for all ongoing patients of 64 months, the median durations of MCyR and MMR had not yet been reached. Based on the Kaplan-Meier estimates, 82% (95% CI: [74%–88%]) of CP-CML (median duration of treatment: 32.2 months) patients who achieved a MCyR are projected to maintain that response at 48 months; and 61% (95% CI: [51%- 70%]) of CP-CML patients who achieved a MMR are projected to maintain that response at 36 months. The probability of all patients with CP CML maintaining MCyR and MMR did not change further when the analysis was extended out to 5 years. With a minimum follow-up of 64 months, 3.4% (9/267) of CP-CML patients experienced transformation of their disease to AP-CML or BP-CML. For CP-CML patients overall (N=267), as well as for CP-CML R/I Cohort A patients (N=203) and T315I Cohort B patients (N=64), the median OS has not yet been reached. For the overall CP-CML disease group, the probability of survival at 2, 3, 4, and 5 years is estimated as 86.0%, 81.2%, 76.9%, and 73.3%, respectively, as shown in Figure 1. Figure 1- Kaplan-Meier estimates for overall survival in the CP-CML population (Treated Population) CP -CML patients who achieved MCyR or MMR response within the first year of treatment had statistically significantly improved progression-free (PFS) and overall survival (OS) compared to those patients who did not meet the treatment milestones. A MCyR at the 3-month landmark correlated strongly and statistically significantly with PFS and OS (p<0.0001 and p=0.0006, respectively). Statistical significance was achieved in the correlation of PFS and OS with a MCyR at the 12-month landmark (p=<0.0001 and p=0.0012, respectively). Table 8 Efficacy of Iclusig in resistant or intolerant advanced phase CML patients Accelerated Phase CML Blast Phase CML Overall Resistant or Overall Resistant or (N=83) Intolerant (N=62) Intolerant R/I T315I R/I T315I Cohort Cohort Cohort Cohort (N=65) (N=18) (N=38) (N=24) Haematological Response Rate Majora (MaHR) % 57% 57% 56% 31% 32% 29% (95% CI) (45-68) (44-69) (31-79) (20–44) (18–49) (13–51) Completeb (CHR) % 51% 49% 56% 21% 24% 17% (95% CI) (39-62) (37-62) (31-79) (12-33) (11-40) (5-37) Major Cytogenetic Responsec % 39% 34% 56% 23% 18% 29% (95% CI) (28-50) (23-47) (31-79) (13-35) (8-34) (13-51) a Primary endpoint for AP-CML and BP-CML/Ph+ ALL Cohorts was MaHR, which combines complete haematological responses and no evidence of leukaemia. b CHR: WBC ≤ institutional ULN, ANC ≥ 1,000/mm3, platelets ≥ 100,000/mm3, no blasts or promyelocytes in peripheral blood, bone marrow blasts ≤ 5%, < 5% myelocytes plus metamyelocytes in peripheral blood, basophils < 5% in peripheral blood, No extramedullary involvement (including no hepatomegaly or splenomegaly). c MCyR combines both complete (No detectable Ph+ cells) and partial (1% to 35% Ph+ cells) cytogenetic responses. Database cutoff date 06 February 2017 Table 9 Efficacy of Iclusig in resistant or intolerant Ph+ ALL patients Overall Resistant or Intolerant (N=32) R/I T315I Cohort Cohort (N=10) (N=22) Haematological Response Rate Majora (MaHR) % 41% 50% 36% (95% CI) (24-59) (19-81) (17-59) Completeb (CHR) % 34% 40% 32% (95% CI) (19-53) (12-74) (14-55) Major Cytogenetic Responsec % 47% 60% 41% (95% CI) (29-65) (26-88) (21-64) a Primary endpoint for AP-CML and BP-CML/Ph+ ALL Cohorts was MaHR, which combines complete haematological responses and no evidence of leukaemia. b CHR: WBC ≤ institutional ULN, ANC ≥ 1,000/mm3, platelets ≥ 100,000/mm3, no blasts or promyelocytes in peripheral blood, bone marrow blasts ≤ 5%, < 5% myelocytes plus metamyelocytes in peripheral blood, basophils < 5% in peripheral blood, No extramedullary involvement (including no hepatomegaly or splenomegaly). c MCyR combines both complete (No detectable Ph+ cells) and partial (1% to 35% Ph+ cells) cytogenetic responses. Database cutoff date 06 February 2017 The median time to MaHR in patients with AP-CML, BP-CML, and Ph+ ALL was 0.7 months (range: 0.4 to 5.8 months), 1.0 months (range: 0.4 to 3.7 months), and 0.7 months (range: 0.4 to 5.5 months), respectively. At the time of updated reporting with minimum follow-up for all ongoing patients of 64 months, the median duration of MaHR for AP-CML (median duration of treatment: 19.4 months) BP-CML (median duration of treatment: 2.9 months), and Ph+ ALL (median duration of treatment: 2.7 months) patients was estimated as 12.9 months (range: 1.2 to 68.4 months), 6.0 months (range: 1.8 to 59.6 months), and 3.2 months (range: 1.8 to 12.8months), respectively. For all patients in the phase 2 trial, the dose intensity-safety relationship indicated that there are significant increases in grade ≥ 3 adverse events (cardiac failure, arterial thrombosis, hypertension, thrombocytopenia, pancreatitis, neutropenia, rash, ALT increase, AST increase, lipase increase, myelosuppression, arthralgia) over the dose range of 15 to 45 mg once-daily. The analysis of the dose intensity-safety relationship in the phase 2 trial concluded that after adjusting for covariates, the overall dose intensity is significantly associated with an increased risk of vascular occlusion, with an odds ratio of approximately 1.6 for each 15 mg increase. In addition, results from logistic regression analyses of data from patients in the phase 1 trial, suggest a relationship between systemic exposure (AUC) and occurrence of arterial thrombotic events. A reduction in dose is therefore expected to reduce the risk of vascular occlusive events, however, the analysis suggested that there may be a ‘carry over’ effect of higher doses such that it might take up to several months before a dose reduction manifests in risk reduction. Other covariates that show a statistically significant association with the occurrence of vascular occlusive events in this analysis are medical history of ischemia and age. Dose reduction in CP-CML patients In the phase 2 trial, dose reductions were recommended following adverse events; in addition in October 2013 new recommendations for prospective dose reduction in all CP-CML patients in the absence of adverse events were introduced in this trial with the aim of reducing the risk of vascular occlusive events. With a minimum follow-up of 48 months, and approximately 2 years after the recommendation for prospective dose reduction, there were 110 CP-CML patients ongoing. A majority of these ongoing patients (82/110 patients; 75%) were reported to be receiving 15 mg at the last dose, while 24/110 patients (22%) were receiving 30 mg, and 4/110 (4%) were receiving 45 mg. At the time of study closure initiation (minimum follow-up of 64 months, and more than 3 years after the recommendation for prospective dose reduction), 99 CP-CML patients were ongoing and 77 (78%) of these patients received 15 mg as their last dose on study. Safety In the phase 2 trial, 86 CP-CML patients achieved MCyR at a dose of 45 mg, 45 CP-CML patients achieved MCyR after a dose reduction to 30 mg, mostly for adverse events. Vascular occlusive events occurred in 44 of these 131 patients. Most of these events occurred at the dose at which the patient achieved MCyR; fewer events occurred after dose reduction. Table 10 Vascular occlusive first adverse events in CP-CML patients who achieved MCyR at 45 mg or 30 mg (data extraction 7 April 2014) Most recent dose at onset of first vascular occlusive event 45 mg 30 mg 15 mg Achieved MCyR at 45 mg 19 6 0 (N=86) Achieved MCyR at 30 mg 1 13 5 (N=45) The median time to onset of the first cardiovascular, cerebrovascular, and peripheral vascular arterial occlusive events was 351, 611, and 605 days, respectively. When adjusted for exposure, the incidence of first arterial occlusive events was greatest in the first two years of follow-up and declined with decreasing daily dose intensity (following recommendation for prospective dose reduction). Factors other than dose may also contribute to this risk of arterial occlusion. Efficacy Data from the phase 2 trial are available on the maintenance of response (MCyR and MMR) in all CP- CML patients who underwent dose reduction for any reason. Table 11 shows these data for patients who achieved MCyR and MMR at 45 mg; similar data are available for patients who achieved MCyR and MMR at 30 mg. The majority of patients who underwent dose reduction maintained response (MCyR and MMR) for the duration of currently available follow-up. A proportion of patients did not undergo any dose reduction, based on an individual benefit-risk assessment. Table 11 Maintenance of response in CP-CML patients who achieved MCyR or MMR at 45 mg dose (data extraction 06 February 2017) Achieved MCyR Achieved MMR at 45 mg (N=86) at 45 mg (N=63) Number of Maintained Number of Maintained patients MCyR patients MMR No dose reduction 19 13 (68%) 18 11 (61%) Dose reduction to 30 mg only 15 13 (87%) 5 3 (60%) ≥ 3 month reduction at 30 mg 12 10 (83%) 3 2 (67%) ≥ 6 month reduction at 30 mg 11 9 (82%) 3 2 (67%) ≥ 12 month reduction at 30 mg 8 7 (88%) 3 2 (67%) ≥ 18 month reduction at 30 mg 7 6 (86%) 2 2 (100%) ≥ 24 month reduction at 30 mg 6 6 (100%) 2 2 (100%) ≥ 36 month reduction at 30 mg 1 1 (100%) -- -- Any dose reduction to 15 mg 52 51 (98%) 40 36 (90%) ≥ 3 month reduction at 15 mg 49 49 (100%) 39 36 (92%) ≥ 6 month reduction at 15 mg 47 47 (100%) 37 35 (95%) ≥ 12 month reduction at 15 mg 44 44 (100%) 34 33 (97%) ≥ 18 month day reduction at 15 38 38 (100%) 29 29 (100%) mg ≥ 24 month reduction at 15 mg 32 32 (100%) 23 23 (100%) ≥ 36 month reduction at 15 mg 8 8 (100%) 4 4 (100%) The anti-leukaemic activity of Iclusig was also evaluated in a phase 1 dose escalation study that included 65 CML and Ph+ ALL patients; the study is completed. Of 43 CP-CML patients, 31 CP- CML patients achieved a MCyR with a median duration of follow-up of 55.5months (range: 1.7 to 91.4months). At the time of reporting, 25 CP-CML patients were in MCyR (median duration of MCyR had not been reached). Cardiac electrophysiology The QT interval prolongation potential of Iclusig was assessed in 39 leukaemia patients who received 30 mg, 45 mg, or 60 mg Iclusig once daily. Serial ECGs in triplicate were collected at baseline and at steady state to evaluate the effect of ponatinib on QT intervals. No clinically significant changes in the mean QTc interval (i.e., > 20 ms) from baseline were detected in the study. In addition, the pharmacokinetic-pharmacodynamic models show no exposure-effect relationship, with an estimated QTcF mean change of –6.4 ms (upper confidence interval –0.9 ms) at Cmax for the 60 mg group.
Pharmacokinetic Properties
5.2 Pharmacokinetic properties Absorption Peak concentrations of ponatinib are observed approximately 4 hours after oral administration. Within the range of clinically relevant doses evaluated in patients (15 mg to 60 mg), ponatinib exhibited dose proportional increases in both Cmax and AUC. The geometric mean (CV%) Cmax and AUC(0-τ) exposures achieved for ponatinib 45 mg daily at steady state were 77 ng/mL (50%) and 1296 ng•hr/mL (48%), respectively. Following either a high-fat and low-fat meal, plasma ponatinib exposures (Cmax and AUC) were not different versus fasting conditions. Iclusig may be administered with or without food. Co-administration of Iclusig with a potent inhibitor of gastric acid secretion resulted in a minor reduction in ponatinib Cmax without a reduction in AUC0-∞. Distribution Ponatinib is highly bound (> 99%) to plasma proteins in vitro. The blood/plasma ratio of ponatinib is 0.96. Ponatinib is not displaced by concomitant administration of ibuprofen, nifedipine, propranolol, salicylic acid, or warfarin. At daily doses of 45 mg, the geometric mean (CV%) apparent steady state volume of distribution is 1101 L (94%) suggesting that ponatinib is extensively distributed in the extravascular space. In vitro studies suggested that ponatinib is either not a substrate or is a weak substrate for both P-gp and breast cancer resistance protein BCRP. Ponatinib is not a substrate for the human organic anion transporting polypeptides OATP1B1, OATP1B3 and the organic cation transporter OCT-1. Biotransformation Ponatinib is metabolized to an inactive carboxylic acid by esterases and/or amidases, and metabolized by CYP3A4 to an N-desmethyl metabolite that is 4 times less active than ponatinib. The carboxylic acid and the N-desmethyl metabolite comprise 58% and 2% of the circulating levels of ponatinib, respectively. At therapeutic serum concentrations, ponatinib did not inhibit OATP1B1 or OATP1B3, OCT1 or OCT2, organic anion transporters OAT1 or OAT3, or bile salt export pump (BSEP) in vitro. Therefore, clinical medicinal product interactions are unlikely to occur as a result of ponatinib mediated inhibition of substrates for these transporters. In vitro studies indicate that clinical medicinal product interactions are unlikely to occur as a result of ponatinib-mediated inhibition of the metabolism of substrates for CYP1A2, CYP2B6, CYP2C8, CYP2C9, CYP2C19, CYP3A or CYP2D6. An in vitro study in human hepatocytes indicated that clinical medicinal product interactions are also unlikely to occur as a result of ponatinib-mediated induction of the metabolism of substrates for CYP1A2, CYP2B6, or CYP3A. Elimination Following single and multiple 45 mg doses of Iclusig, the terminal elimination half-life of ponatinib was 22 hours, and steady state conditions are typically achieved within 1 week of continuous dosing. With once-daily dosing, plasma exposures of ponatinib are increased by approximately 1.5-fold between first dose and steady state conditions. Although plasma ponatinib exposures increased to steady-state levels with continuous dosing, a population pharmacokinetic analysis predicts a limited increase in apparent oral clearance within the first two weeks of continuous dosing, which is not considered clinically relevant. Ponatinib is mainly eliminated via faeces. Following a single oral dose of [14C]-labeled ponatinib, approximately 87% of the radioactive dose is recovered in the faeces and approximately 5% in the urine. Unchanged ponatinib accounted for 24% and < 1% of the administered dose in faeces and urine, respectively, with the remainder of the dose comprising metabolites. Renal impairment Iclusig has not been studied in patients with renal impairment. Although renal excretion is not a major route of ponatinib elimination, the potential for moderate or severe renal impairment to affect hepatic elimination has not been determined (see section 4.2). Hepatic impairment A single dose of 30 mg ponatinib was administered to patients with mild, moderate, or severe hepatic impairment and to healthy volunteers with normal hepatic function. Ponatinib Cmax was comparable in patients with mild hepatic impairment and healthy volunteers with normal hepatic function. In patients with moderate or severe hepatic impairment, ponatinib Cmax and AUC0-∞ were lower and ponatinib plasma elimination half-life was longer in patients with mild, moderate, and severe hepatic impairment but not clinically significantly different than in healthy volunteers with normal hepatic function. In vitro data showed no difference in plasma protein binding in plasma samples of healthy subjects and hepatically impaired (mild, moderate and severe) subjects. Compared to healthy volunteers with normal liver function, no major differences in ponatinib PK were observed in patients with varying degrees of hepatic impairment. A reduction of the starting dose of Iclusig in patients with hepatic impairment is not necessary (see sections 4.2 and 4.4). Caution is recommended when administering Iclusig to patients with hepatic impairment (see sections 4.2 and 4.4). Iclusig has not been studied at doses above 30 mg in patients with hepatic impairment (Childs-Pugh Classes A, B & C). Intrinsic factors affecting ponatinib pharmacokinetics No specific studies have been performed to evaluate the effects of gender, age, race, and body weight on ponatinib pharmacokinetics. An integrated population pharmacokinetic analysis completed for ponatinib suggests that age may be predictive of variability for ponatinib apparent oral clearance (CL/F). Gender, race and body weight were not predictive in explaining ponatinib pharmacokinetic intersubject variability.
פרטי מסגרת הכללה בסל
א. התרופה תינתן לטיפול במקרים האלה:1. לוקמיה מסוג CML בחולים עם מוטציה מסוג T315I או בחולה עם עמידות או חוסר סבילות למעכבי טירוזין קינאז.2. לוקמיה מסוג Ph+ ALL בחולים עם מוטציה מסוג T315I או בחולה עם עמידות או חוסר סבילות למעכבי טירוזין קינאז.ב. מתן התרופה האמורה ייעשה לפי מרשם של רופא מומחה באונקולוגיה או רופא מומחה בהמטולוגיה.
מסגרת הכללה בסל
התוויות הכלולות במסגרת הסל
התוויה | תאריך הכללה | תחום קליני | Class Effect | מצב מחלה |
---|---|---|---|---|
לוקמיה מסוג Ph+ ALL בחולים עם מוטציה מסוג T315I או בחולה עם עמידות או חוסר סבילות למעכבי טירוזין קינאז. | ||||
לוקמיה מסוג CML בחולים עם מוטציה מסוג T315I או בחולה עם עמידות או חוסר סבילות למעכבי טירוזין קינאז. |
שימוש לפי פנקס קופ''ח כללית 1994
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תאריך הכללה מקורי בסל
15/01/2015
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