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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT01576718
Other study ID # FpS-AS-202
Secondary ID 2010-023601-35
Status Completed
Phase Phase 2
First received
Last updated
Start date April 2012
Est. completion date October 2013

Study information

Verified date May 2018
Source Teva Pharmaceutical Industries
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The primary objective of this study is to evaluate the dose response, efficacy and safety of 4 different doses of fluticasone propionate (50, 100, 200, and 400mcg) delivered as Fluticasone Spiromax® Inhalation Powder (Fp Spiromax) when administered twice daily in subjects 12 years of age and older with severe persistent asthma who are uncontrolled on high dose ICS therapy.


Recruitment information / eligibility

Status Completed
Enrollment 889
Est. completion date October 2013
Est. primary completion date July 2013
Accepts healthy volunteers No
Gender All
Age group 12 Years and older
Eligibility Inclusion Criteria:

1. Written informed consent/assent signed and dated by the subject and/or parent /legal guardian before conducting any study related procedure.

2. Male or female 12 years and older, as of the Screening Visit. Male or female 18 years and older, as of the Screening Visit, in countries where local regulations or the regulatory status of study medication permit enrollment of adults only.

3. General good health, and free of any concomitant conditions or treatment that could interfere with study conduct, influence the interpretation of study observations/results, or put the subject at increased risk during the study.

4. Asthma Diagnosis: Asthma as defined by the National Institutes of Health (NIH).

5. Severity of Disease:

• A best forced expiratory volume in one second (FEV1) of 40%-85% of the predicted normal value during the Screening Visit. NHANES III predicted values will be used for subjects aged =12 years and adjustments to predicted values will be made for African American subjects. ATS/ERS 2005 criteria for acceptability, reproducibility, and end of test must be met for spirometry

6. Reversibility of Disease: Demonstrated a =12% reversibility of FEV1 within 30 minutes following 2 inhalations of albuterol/salbutamol inhalation aerosol (if required, spacers are permitted for reversibility testing only) at the Screening Visit. If a subject fails to demonstrate an increase in FEV1 =12% then the subject is not eligible for the study and will not be allowed to re-screen. Reversibility values of 11.50 - 11.99 will be rounded to 12. Documented historical reversibility of = 12 % within 3 months of the Screening Visit will be accepted.

7. Current Asthma Therapy: Subjects will be required to be on a short acting ß2 agonist and inhaled corticosteroid for a minimum of 8 weeks before the Screening Visit and have been maintained on a stable dose of inhaled corticosteroids for four weeks prior to the Screening Visit at one of the following doses:

- Fluticasone propionate HFA MDI = 880 mcg/day

- Fluticasone propionate DPI= 1000 mcg/day

- Beclomethasone dipropionate DPI = 2000 mcg/day

- Beclomethasone dipropionate HFA (QVAR)= 640 mcg/day

- Beclomethasone dipropionate HFA (Clenil Modulite)= 2000 mcg/day

- Budesonide DPI = 1600 mcg/day

- Budesonide MDI = 1600 mcg/day

- Flunisolide = 2000 mcg/day

- Triamcinolone acetonide = 2000 mcg /day

- Mometasone furoate DPI = 880 mcg/day

- Ciclesonide HFA MDI = 640 mcg/day

Exception 1: Based upon the investigator's judgment that there is no inherent harm in changing the subject's current ICS/LABA therapy and the subject provides consent, subjects on inhaled Fluticasone propionate/salmeterol DPI = 1000 mcg/day, or Fluticasone propionate/salmeterol HFA = 880 mcg/day, or Fluticasone propionate/Formoterol = 1000 mcg/day,or Beclomethasone dipropionate/Formoterol = 400 mcg/day, or Budesonide/formoterol HFA = 640 mcg/day, or Budesonide/formoterol DPI = 800 mcg/day, or Mometasone furoate/formoterol MDI = 800 mcg/day or subjects on a qualifying ICS dose plus a long-acting ß2-agonists (LABA) administered via separate inhalers, may be switched to a qualifying dose of fluticasone propionate provided the subjects will not participate in the PK portion of the study.

Exception 2: Subjects on a qualifying dose of fluticasone propionate who wish to participate in the PK portion of the study and who provide consent may have their fluticasone propionate switched to a different qualifying ICS (non-fluticasone propionate) at a pre-screening visit. The subject will be required to return to the clinic to complete the Screening Visit following a 1-week washout period.

8. Short-Acting ß2-Agonists: All subjects must be able to replace their current short-acting ß2-agonists with albuterol/salbutamol inhalation aerosol at the Screening Visit for use as needed for the duration of the study. The use of spacer devices with the metered dose inhaler (MDI) will not be allowed during the study with exception of it's use during reversibility testing at the Screening Visit. Nebulized albuterol/salbutamol will not be allowed at any time during the study. Subjects must be able to withhold all inhaled short-acting ß2 sympathomimetic bronchodilators for at least 6 hours prior to all study visits.

9. If female, is currently not pregnant, breast feeding, or attempting to become pregnant, has a negative serum pregnancy test, and is of

- Non-childbearing potential, defined as:

- Before menarche, or

- 1 year post-menopausal, or

- Surgically sterile (tubal ligation, bilateral oophorectomy, or hysterectomy), or

- Congenital sterility, or

- Diagnosed as infertile and not undergoing treatment to reverse infertility or is of

- Child-bearing potential, willing to commit to using a consistent and acceptable method of birth control as defined below for the duration of the study:

- Systemic contraception used for 1 month prior to screening, including birth control pills, transdermal patch (Ortho Evra®), vaginal ring (NuvaRing®), levonorgesterel (Norplant®), or injectable progesterone (Depo-Provera®), or

- Double barrier methods (condoms, cervical cap, diaphragm, and vaginal contraceptive film with spermicide), or

- Intrauterine device (IUD) or

- Monogamous with a vasectomized male partner or is of

- Child-bearing potential and not sexually active, willing to commit to using a consistent and acceptable method of birth control as defined above for the duration of the study, in the event the subject becomes sexually active

10. Capable of understanding the requirements, risks, and benefits of study participation, and, as judged by the investigator, capable of giving informed consent/assent and being compliant with all study requirements (visits, record-keeping, etc).

Exclusion Criteria:

1. History of life-threatening asthma that is defined for this protocol as an asthma episode that required intubation and/or was associated with hypercapnea, respiratory arrest or hypoxic seizures.

2. Culture-documented or suspected bacterial or viral infection of the upper or lower respiratory tract, sinus, or middle ear that is not resolved within 2 weeks of the Screening Visit. In addition, the subject must be excluded if such infection occurs between the Screening Visit and the Randomization Visit.

3. Any asthma exacerbation requiring oral corticosteroids within 1 month of the Screening Visit. A subject must not have had any hospitalization for asthma within 2 month prior to the Screening Visit.

Note: An exacerbation of asthma is defined as any worsening of asthma requiring any treatment other than rescue albuterol/salbutamol HFA MDI and/or the subject's regular inhaled corticosteroid maintenance treatment. This includes requiring the use of systemic corticosteroids and/or emergency room visit or hospitalization, a change in the subject's regular inhaled corticosteroid maintenance treatment, or the addition of other asthma medications.

4. Presence of glaucoma, cataracts, ocular herpes simplex, or malignancy other than basal cell carcinoma.

5. Historical or current evidence of a clinically significant disease including, but not limited to: cardiovascular (e.g., congestive heart failure, known aortic aneurysm, clinically significant cardiac arrhythmia or coronary heart disease), hepatic, renal, hematological, neuropsychological, endocrine (e.g., uncontrolled diabetes mellitus, uncontrolled thyroid disorder, Addison's disease, Cushing's syndrome), gastrointestinal (e.g., poorly-controlled peptic ulcer, GERD), or pulmonary (e.g., chronic bronchitis, emphysema, bronchiectasis with the need for treatment, cystic fibrosis, bronchopulmonary dysplasia, chronic obstructive pulmonary disease). Significant is defined as any disease that, in the opinion of the investigator, would put the safety of the subject at risk through participation, or which could affect the efficacy or safety analysis if the disease/condition exacerbated during the study.

6. Have any of the following conditions that, in the judgment of the investigator, might cause participation in this study to be detrimental to the subject, including, but not limited to:

- Current malignancy excluding basal cell carcinoma; History of malignancy is acceptable only if the subject has been in remission for one year prior to the Screening Visit. (Remission is defined as no current evidence of malignancy and no treatment for the malignancy in the 12 months prior to the Screening Visit)

- Current or untreated tuberculosis; History of tuberculosis is acceptable only if a subject has received an approved prophylactic treatment regimen or an approved active treatment regimen and has had no evidence of active disease for a minimum of 2 years

- Uncontrolled hypertension (systolic BP =160 or diastolic BP >100)

- Stroke within 3 months prior to the Screening Visit

- Immunologic compromise

7. History of a positive test for HIV, hepatitis B or hepatitis C infection.

8. Untreated oral candidiasis at the Screening Visit. Subjects with clinical visual evidence of oral candidiasis and who agree to receive treatment and comply with appropriate medical monitoring may enter the study

9. History of any adverse reaction to any intranasal, inhaled or systemic corticosteroid therapy. Known or suspected sensitivity to the constituents of the dry powder inhalers (Spiromax or Diskus) used in the study (i.e., lactose).

10. History of severe allergy to milk protein.

11. Use of systemic, oral or depot corticosteroids within 4 weeks prior to the Screening Visit

- Use of topical corticosteroids (=1% hydrocortisone cream) for dermatological disease is permitted

- Use of intranasal corticosteroids or ocular corticosteroids at a stable dose for at least 4 weeks prior to the Screening Visit and throughout the study is permitted

12. Use of immunosuppressive medications within 4 weeks prior to the Screening Visit and during the study.

13. Immunotherapy for the treatment of allergy at a stable maintenance dose for at least 90 days prior to the Screening Visit and which will remain at a stable dose without escalation throughout the study is permitted.

14. Use of Cytochrome P450 3A4 (CYP3A4) inhibitors (e.g., ritonavir, ketoconazole, itraconazole) within 4 weeks prior to the Screening Visit. Strong and moderate CYP3A4 inhibitors are prohibited and weak CYP3A4 are allowed.

15. History of alcohol or drug abuse within two years preceding the Screening Visit.

16. Current smoker or a smoking history of 10 pack years or more (a pack year is defined as smoking 1 pack of cigarettes/day for 1 year). A subject may not have used tobacco products within the past one year (e.g., cigarettes, cigars, chewing tobacco, or pipe tobacco).

17. Study participation by clinical investigator site employees and/or their immediate relatives.

18. Study participation by more than one subject from the same household at the same time. However, after the study completion or discontinuation by one subject another subject from the same household may be screened.

19. Participation in any investigational drug study within the 30 days (starting at the final follow-up visit) preceding the Screening Visit or planned participation in another investigational drug study at any time during this study.

20. Pregnancy, nursing, or plans to become pregnant or donate gametes (ova or sperm) for in vitro fertilization during the study period or for 30 days following the subject's last study related visit (for eligible subjects only - if applicable). Eligible female subjects unwilling to employ appropriate contraceptive measures to ensure that pregnancy will not occur during the study will be excluded.

Study Design


Related Conditions & MeSH terms


Intervention

Drug:
Fp MDPI
Fp MDPI is an inhalation-driven multidose dry powder inhaler (MDPI) containing fluticasone propionate (Fp) dispersed in a lactose monohydrate excipient and contained within a reservoir. A metered dose of drug is delivered to a dose cup via an air pulse activated when the cap is opened. During the treatment period, participants were randomized to 50, 100, 200 or 400 mcg of Fp one inhalation twice a day for a total daily dose of 100, 200, 400 or 800 mcg. Study drug was administered in the morning and in the evening.
Other:
Placebo MDPI
Placebo multidose dry powder inhaler (MDPI) in the morning and evening. Placebo MDPI was provided in devices identical in appearance to Fp MDPI.
Drug:
Flovent Diskus
Flovent Diskus contains the active ingredient fluticasone propionate (Fp). Flovent Diskus 250 mcg was used twice a day, once in the morning and evening, for a total daily dose of 500 mcg of Fp. This therapy was not blinded as the inhaler device was different than the MDPI used in the other treatment arms.
albuterol/salbutamol
A short-acting ß2-adrenergic agonists (SABA), albuterol/salbutamol hydrofluoroalkane (HFA) metered dose inhaler (MDI), was provided to be used as needed for the relief of asthma symptoms during both the run-in and treatment periods (to replace the subject's current rescue medication).

Locations

Country Name City State
Australia Teva Investigational Site 85570 Bedford Park
Australia Teva Investigational Site 85571 Parkville
Bulgaria Teva Investigational Site 59507 Burgas
Bulgaria Teva Investigational Site 59503 Lovech
Bulgaria Teva Investigational Site 59506 Pleven
Bulgaria Teva Investigational Site 59504 Ruse
Bulgaria Teva Investigational Site 59501 Sofia
Bulgaria Teva Investigational Site 59502 Sofia
Bulgaria Teva Investigational Site 59505 Sofia
Bulgaria Teva Investigational Site 59508 Sofia
Bulgaria Teva Investigational Site 59509 Varna
Canada Teva Investigational Site 11594 Burlington Ontario
Canada Teva Investigational Site 11595 Etobicoke Ontario
Canada Teva Investigational Site 11591 Newmarket
Canada Teva Investigational Site 11592 Sarnia Ontario
Canada Teva Investigational Site 11590 Toronto Ontario
Croatia Teva Investigational Site 85501 Zagreb
Croatia Teva Investigational Site 85502 Zagreb
Croatia Teva Investigational Site 85503 Zagreb
Croatia Teva Investigational Site 85504 Zagreb
Germany Teva Investigational Site 70561 Berlin
Germany Teva Investigational Site 70564 Bonn
Germany Teva Investigational Site 70557 Cottbus
Germany Teva Investigational Site 70553 Delitzsch
Germany Teva Investigational Site 70558 Frankfurt
Germany Teva Investigational Site 70562 Hamburg
Germany Teva Investigational Site 70560 Hanover
Germany Teva Investigational Site 70555 Leipzig
Germany Teva Investigational Site 70556 Magdeburg
Germany Teva Investigational Site 70550 Munchen
Germany Teva Investigational Site 70554 Munchen
Germany Teva Investigational Site 70552 Munster
Germany Teva Investigational Site 70563 Nurnberg
Germany Teva Investigational Site 70551 Rudersdorf
Germany Teva Investigational Site 70559 Wiesbaden
Greece Teva Investigational Site 85533 Athens
Greece Teva Investigational Site 85534 Athens
Greece Teva Investigational Site 85531 Heraklion
Greece Teva Investigational Site 85532 Larissa
Greece Teva Investigational Site 85530 Thessaloniki
Hungary Teva Investigational Site 36507 Balassagyarmat
Hungary Teva Investigational Site 36504 Budapest
Hungary Teva Investigational Site 36505 Budapest
Hungary Teva Investigational Site 36514 Csoma
Hungary Teva Investigational Site 36516 Erd
Hungary Teva Investigational Site 36513 Kaba
Hungary Teva Investigational Site 36515 Kaposvar
Hungary Teva Investigational Site 36503 Miskolc
Hungary Teva Investigational Site 36502 Nyiregyhaza
Hungary Teva Investigational Site 36510 Siofok
Hungary Teva Investigational Site 36517 Szarvas
Hungary Teva Investigational Site 36508 Szazhalombatta
Hungary Teva Investigational Site 36506 Szeged
Hungary Teva Investigational Site 36509 Szeged
Hungary Teva Investigational Site 36501 Szombathely
Hungary Teva Investigational Site 36512 Veszprem
Ireland Teva Investigational Site 59550 Dublin
Ireland Teva Investigational Site 59551 Dublin
Israel Teva Investigational Site 72511 Ashkelon
Israel Teva Investigational Site 72501 Haifa
Israel Teva Investigational Site 72512 Haifa
Israel Teva Investigational Site 72502 Jerusalem
Israel Teva Investigational Site 72504 Jerusalem
Israel Teva Investigational Site 72509 Kfar Saba
Israel Teva Investigational Site 72506 Petach Tikva
Israel Teva Investigational Site 72507 Ramat-Gan
Israel Teva Investigational Site 72503 Rehovot
Israel Teva Investigational Site 72510 Tel Aviv
Israel Teva Investigational Site 72508 Tel-Aviv
Israel Teva Investigational Site 72505 Zerifin
New Zealand Teva Investigational Site 81571 Auckland
New Zealand Teva Investigational Site 81572 Christchurch
New Zealand Teva Investigational Site 81573 Tauranga
New Zealand Teva Investigational Site 81570 Wellington
Poland Teva Investigational Site 48507 Bialystok
Poland Teva Investigational Site 48505 Bydgoszcz
Poland Teva Investigational Site 48506 Grodzisk Mazowiecki
Poland Teva Investigational Site 48501 Lodz
Poland Teva Investigational Site 48509 Lodz
Poland Teva Investigational Site 48513 Lublin
Poland Teva Investigational Site 48508 Poznan
Poland Teva Investigational Site 48512 Poznan
Poland Teva Investigational Site 48502 Strzelce Opolskie
Poland Teva Investigational Site 48503 Tarnow
Poland Teva Investigational Site 48504 Wroclaw
Romania Teva Investigational Site 81534 Brasov
Romania Teva Investigational Site 81539 Brasov
Romania Teva Investigational Site 81533 Bucharest
Romania Teva Investigational Site 81535 Bucharest
Romania Teva Investigational Site 81537 Bucharest
Romania Teva Investigational Site 81531 Cluj-Napoca
Romania Teva Investigational Site 81536 Cluj-Napoca
Romania Teva Investigational Site 81530 Targu Mures
Romania Teva Investigational Site 81532 Timisoara
Romania Teva Investigational Site 81538 Timisoara
Russian Federation Teva Investigational Site 70505 Barnaul
Russian Federation Teva Investigational Site 70502 Kazan
Russian Federation Teva Investigational Site 70511 Moscow
Russian Federation Teva Investigational Site 70512 Moscow
Russian Federation Teva Investigational Site 70508 Ryazan
Russian Federation Teva Investigational Site 70509 Samara
Russian Federation Teva Investigational Site 70507 Smolensk
Russian Federation Teva Investigational Site 70501 St. Petersburg
Russian Federation Teva Investigational Site 70504 St. Petersburg
Russian Federation Teva Investigational Site 70510 St. Petersburg
Russian Federation Teva Investigational Site 70506 Tomsk
Russian Federation Teva Investigational Site 70503 Yaroslavl
Serbia Teva Investigational Site 81501 Belgrade
South Africa Teva Investigational Site 36551 Bloemfontein
South Africa Teva Investigational Site 36552 Cape Town
South Africa Teva Investigational Site 36555 Cape Town
South Africa Teva Investigational Site 36550 Port Elizabeth
South Africa Teva Investigational Site 36553 Thabazimbi
South Africa Teva Investigational Site 36554 Witbank
Spain Teva Investigational Site 34507 Aranjuez
Spain Teva Investigational Site 34501 Badalona
Spain Teva Investigational Site 34502 Barcelona
Spain Teva Investigational Site 34510 Barcelona
Spain Teva Investigational Site 34509 Bilbao
Spain Teva Investigational Site 34506 Lleida
Spain Teva Investigational Site 34505 Madrid
Spain Teva Investigational Site 34503 Salt
Spain Teva Investigational Site 34504 Santiago de Compostela
Spain Teva Investigational Site 34508 Valencia
Spain Teva Investigational Site 34511 Vitoria
Ukraine Teva Investigational Site 80501 Dnipropetrovsk
Ukraine Teva Investigational Site 80513 Dnipropetrovsk
Ukraine Teva Investigational Site 80511 Donetsk
Ukraine Teva Investigational Site 80502 Kharkiv
Ukraine Teva Investigational Site 80503 Kharkiv
Ukraine Teva Investigational Site 80504 Kyiv
Ukraine Teva Investigational Site 80505 Kyiv
Ukraine Teva Investigational Site 80506 Kyiv
Ukraine Teva Investigational Site 80507 Kyiv
Ukraine Teva Investigational Site 80508 Kyiv
Ukraine Teva Investigational Site 80509 Kyiv
Ukraine Teva Investigational Site 80517 Kyiv
Ukraine Teva Investigational Site 80519 Kyiv
Ukraine Teva Investigational Site 80520 Kyiv
Ukraine Teva Investigational Site 80521 Kyiv
Ukraine Teva Investigational Site 80514 Odesa
Ukraine Teva Investigational Site 80516 Simferopol
Ukraine Teva Investigational Site 80512 Vinnytsya
Ukraine Teva Investigational Site 80515 Yalta
Ukraine Teva Investigational Site 80522 Zaporizhia
Ukraine Teva Investigational Site 80510 Zaporizhzhia
Ukraine Teva Investigational Site 80518 Zaporizhzhya
United Kingdom Teva Investigational Site 34582 Cottingham
United Kingdom Teva Investigational Site 34584 London
United Kingdom Teva Investigational Site 34585 Penzance
United Kingdom Teva Investigational Site 34580 Torpoint
United Kingdom Teva Investigational Site 34581 Watford
United States Teva Investigational Site 11504 Albany Georgia
United States Teva Investigational Site 11503 Albuquerque New Mexico
United States Teva Investigational Site 10509 Altoona Pennsylvania
United States Teva Investigational Site 10598 Ashland Oregon
United States Teva Investigational Site 10573 Bakersfield California
United States Teva Investigational Site 11548 Baltimore Maryland
United States Teva Investigational Site 10564 Bangor Maine
United States Teva Investigational Site 10518 Bellevue Nebraska
United States Teva Investigational Site 11561 Bellingham Washington
United States Teva Investigational Site 10504 Birmingham Alabama
United States Teva Investigational Site 10519 Boerne Texas
United States Teva Investigational Site 10556 Boynton Beach Florida
United States Teva Investigational Site 11513 Brandon Florida
United States Teva Investigational Site 10538 Brockton Massachusetts
United States Teva Investigational Site 10580 Bronx New York
United States Teva Investigational Site 10587 Brooklyn New York
United States Teva Investigational Site 10522 Canton Ohio
United States Teva Investigational Site 10545 Centennial Colorado
United States Teva Investigational Site 10526 Charleston South Carolina
United States Teva Investigational Site 11547 Charleston South Carolina
United States Teva Investigational Site 10559 Cherry Hill New Jersey
United States Teva Investigational Site 10507 Cincinnati Ohio
United States Teva Investigational Site 10523 Cincinnati Ohio
United States Teva Investigational Site 11507 Clearwater Florida
United States Teva Investigational Site 10572 Colorado Springs Colorado
United States Teva Investigational Site 11562 Columbia Missouri
United States Teva Investigational Site 11563 Columbia Missouri
United States Teva Investigational Site 10511 Columbus Georgia
United States Teva Investigational Site 10544 Columbus Ohio
United States Teva Investigational Site 11510 Columbus Georgia
United States Teva Investigational Site 11572 Columbus Georgia
United States Teva Investigational Site 11518 Costa Mesa California
United States Teva Investigational Site 10541 Dallas Texas
United States Teva Investigational Site 10542 Dallas Texas
United States Teva Investigational Site 11521 Dayton Ohio
United States Teva Investigational Site 10533 Denver Colorado
United States Teva Investigational Site 11531 Denver Colorado
United States Teva Investigational Site 11542 Denver Colorado
United States Teva Investigational Site 11566 Edison New Jersey
United States Teva Investigational Site 10548 El Paso Texas
United States Teva Investigational Site 11552 El Paso Texas
United States Teva Investigational Site 10502 Fairfax Virginia
United States Teva Investigational Site 11546 Fort Myers Florida
United States Teva Investigational Site 11512 Fort Worth Texas
United States Teva Investigational Site 10590 Fountain Valley California
United States Teva Investigational Site 11527 Goodyear Arizona
United States Teva Investigational Site 10551 Granada Hills California
United States Teva Investigational Site 10570 Greenfield Wisconsin
United States Teva Investigational Site 11559 Greenfield Wisconsin
United States Teva Investigational Site 11526 Hialeah Florida
United States Teva Investigational Site 10501 Hillsborough New Jersey
United States Teva Investigational Site 10565 Homewood Alabama
United States Teva Investigational Site 11565 Houston Texas
United States Teva Investigational Site 11568 Houston Texas
United States Teva Investigational Site 11520 Huntington Beach California
United States Teva Investigational Site 11545 Huntington Beach California
United States Teva Investigational Site 11558 Indianapolis Indiana
United States Teva Investigational Site 10584 Iowa City Iowa
United States Teva Investigational Site 11525 Kissimmee Florida
United States Teva Investigational Site 10510 Largo Maryland
United States Teva Investigational Site 11571 Las Vegas Nevada
United States Teva Investigational Site 10568 Lawrenceville Georgia
United States Teva Investigational Site 11528 Layton Utah
United States Teva Investigational Site 10591 Lexington Kentucky
United States Teva Investigational Site 10586 Lilburn Georgia
United States Teva Investigational Site 10581 Lincoln Rhode Island
United States Teva Investigational Site 10547 Long Beach California
United States Teva Investigational Site 11549 Los Angeles California
United States Teva Investigational Site 11567 Louisville Kentucky
United States Teva Investigational Site 10595 Manassas Virginia
United States Teva Investigational Site 11543 Medford Oregon
United States Teva Investigational Site 10513 Metairie Louisiana
United States Teva Investigational Site 10537 Miami Florida
United States Teva Investigational Site 10553 Miami Florida
United States Teva Investigational Site 11508 Miami Florida
United States Teva Investigational Site 11514 Miami Florida
United States Teva Investigational Site 11516 Miami Florida
United States Teva Investigational Site 11530 Miami Florida
United States Teva Investigational Site 11570 Miami Florida
United States Teva Investigational Site 11505 Middleburg Heights Ohio
United States Teva Investigational Site 10503 Mission Viejo California
United States Teva Investigational Site 10520 New York New York
United States Teva Investigational Site 10532 Newburgh New York
United States Teva Investigational Site 10536 Newport Beach California
United States Teva Investigational Site 10546 North Dartmouth Massachusetts
United States Teva Investigational Site 10567 North Syracuse New York
United States Teva Investigational Site 10571 Ocala Florida
United States Teva Investigational Site 11550 Ocean City New Jersey
United States Teva Investigational Site 10560 Oklahoma City Oklahoma
United States Teva Investigational Site 10574 Oklahoma City Oklahoma
United States Teva Investigational Site 10579 Oklahoma City Oklahoma
United States Teva Investigational Site 10550 Omaha Nebraska
United States Teva Investigational Site 11529 Omaha Nebraska
United States Teva Investigational Site 10540 Orange California
United States Teva Investigational Site 11551 Orange California
United States Teva Investigational Site 10583 Orangeburg South Carolina
United States Teva Investigational Site 11501 Overland Park Kansas
United States Teva Investigational Site 10578 Palmdale California
United States Teva Investigational Site 10555 Philadelphia Pennsylvania
United States Teva Investigational Site 10566 Pittsburgh Pennsylvania
United States Teva Investigational Site 10531 Plymouth Minnesota
United States Teva Investigational Site 11557 Portland Oregon
United States Teva Investigational Site 10562 Providence Rhode Island
United States Teva Investigational Site 10576 Provo Utah
United States Teva Investigational Site 10585 Redwood City California
United States Teva Investigational Site 10508 Richmond Virginia
United States Teva Investigational Site 10512 Rochester New York
United States Teva Investigational Site 11538 Rolling Hills Estates California
United States Teva Investigational Site 11522 Roseville California
United States Teva Investigational Site 10552 Saint Louis Missouri
United States Teva Investigational Site 10575 Saint Louis Missouri
United States Teva Investigational Site 10589 Saint Louis Missouri
United States Teva Investigational Site 11532 Saint Louis Missouri
United States Teva Investigational Site 10515 San Antonio Texas
United States Teva Investigational Site 10569 San Antonio Texas
United States Teva Investigational Site 11517 San Antonio Texas
United States Teva Investigational Site 11519 San Antonio Texas
United States Teva Investigational Site 10582 San Diego California
United States Teva Investigational Site 11554 San Diego California
United States Teva Investigational Site 10563 San Jose California
United States Teva Investigational Site 11556 Santa Monica California
United States Teva Investigational Site 11537 Sarasota Florida
United States Teva Investigational Site 11539 Savannah Georgia
United States Teva Investigational Site 11541 Seattle Washington
United States Teva Investigational Site 10527 South Bend Indiana
United States Teva Investigational Site 10534 South Burlington Vermont
United States Teva Investigational Site 10593 South Miami Florida
United States Teva Investigational Site 10517 Spartanburg South Carolina
United States Teva Investigational Site 11515 Spartanburg South Carolina
United States Teva Investigational Site 10524 Spokane Washington
United States Teva Investigational Site 10543 Stockbridge Georgia
United States Teva Investigational Site 10506 Stockton California
United States Teva Investigational Site 10530 Tacoma Washington
United States Teva Investigational Site 11511 Tacoma Washington
United States Teva Investigational Site 11555 Tallahassee Florida
United States Teva Investigational Site 10554 Tamarac Florida
United States Teva Investigational Site 10539 Tampa Florida
United States Teva Investigational Site 11502 Troy Michigan
United States Teva Investigational Site 10516 Tucson Arizona
United States Teva Investigational Site 11544 Tulsa Oklahoma
United States Teva Investigational Site 10521 Upland Pennsylvania
United States Teva Investigational Site 10525 Valrico Florida
United States Teva Investigational Site 11560 Waco Texas
United States Teva Investigational Site 10529 Walnut Creek California
United States Teva Investigational Site 10528 Waterbury Connecticut
United States Teva Investigational Site 10588 West Orange New Jersey
United States Teva Investigational Site 11569 Wheat Ridge Colorado
United States Teva Investigational Site 10577 Wheaton Maryland

Sponsors (1)

Lead Sponsor Collaborator
Teva Branded Pharmaceutical Products, R&D Inc.

Countries where clinical trial is conducted

United States,  Australia,  Bulgaria,  Canada,  Croatia,  Germany,  Greece,  Hungary,  Ireland,  Israel,  New Zealand,  Poland,  Romania,  Russian Federation,  Serbia,  South Africa,  Spain,  Ukraine,  United Kingdom, 

Outcome

Type Measure Description Time frame Safety issue
Other Change From Baseline In Trough (Morning Predose And Pre-Rescue Bronchodilator) Forced Expiratory Volume In 1 Second (FEV1) Over The 12-Week Treatment Period (Including the Flovent Diskus Treatment Arm) Peak expiratory flow was determined in the AM and in the PM, before administration of study or rescue medications using a handheld electronic peak flow meter. The highest value of triplicate measurements obtained was recorded by the subject's diary device.
On mornings for which a treatment visit was scheduled (TV1 through TV9), the PEF was measured and recorded at the investigational site visit.
Baseline trough AM PEF was defined as the average of recorded (nonmissing) trough AM PEF assessments over the 7 days directly preceding first study drug intake.
The p-values for the treatment comparisons to Flovent Diskus are from an MMRM model which includes data from all treatments: change from baseline = baseline PEF + sex + age + treatment + visit + treatment*visit with an unstructured covariance matrix assumed.
Baseline (Day 1 pre-dose), Weeks 1, 2, 3, 4, 6, 8, 10 and 12
Other Change From Baseline In Weekly Average Of Daily Trough (Predose And Pre-Rescue Bronchodilator) Morning Peak Expiratory Flow (PEF) Over The 12-Week Treatment Period (Including the Flovent Diskus Treatment Arm) Peak expiratory flow was determined in the AM and in the PM, before administration of study or rescue medications using a handheld electronic peak flow meter. The highest value of triplicate measurements obtained was recorded by the subject's diary device.
On mornings for which a treatment visit was scheduled (TV1 through TV9), the PEF was measured and recorded at the investigational site visit.
Baseline trough AM PEF was defined as the average of recorded (nonmissing) trough AM PEF assessments over the 7 days directly preceding first study drug intake.
The p-values for the treatment comparisons to Flovent Diskus are from an MMRM model that included data for all treatments: change from baseline = baseline PEF + sex + age + treatment + visit + treatment*visit with an unstructured covariance matrix assumed.
Baseline (Days -6 to Day 1 pre-dose), Weeks 1, 2, 3, 4, 6, 8, 10 and 12
Other Change From Baseline In Weekly Average Of Daily Trough (Predose And Pre-Rescue Bronchodilator) Evening Peak Expiratory Flow (PEF) Over The 12-Week Treatment Period (Including the Flovent Diskus Treatment Arm) Peak expiratory flow was determined in the AM and in the PM, before administration of study or rescue medications using a handheld electronic peak flow meter. The highest value of triplicate measurements obtained was recorded by the subject's diary device.
PM PEF baseline was defined as the average of recorded (nonmissing) PM PEF assessments over the 7 days directly preceding first study drug intake.
The p-values for the treatment comparisons to Flovent Diskus are from an MMRM model that included data for all treatments: change from baseline = baseline PEF + sex + age + treatment + visit + treatment*visit with an unstructured covariance matrix assumed.
Baseline (Days -6 to Day 1 pre-dose), Weeks 1, 2, 3, 4, 6, 8, 10 and 12
Primary Change From Baseline In Trough (Morning Predose And Pre-Rescue Bronchodilator) Forced Expiratory Volume In 1 Second (FEV1) Over The 12-Week Treatment Period Trough FEV1 was measured electronically by spirometry at morning (AM) investigational site visits, before administration of the AM dose of study drug, and before albuterol/salbutamol administration. The highest FEV1 value from 3 acceptable and 2 reproducible maneuvers was used. All FEV1 data were submitted to a central reading center for evaluation.
The p-values for the treatment comparisons to placebo are from an MMRM model excluding FLOVENT DISKUS data: change from baseline = baseline FEV1 + sex + age + treatment + visit + treatment*visit with an unstructured covariance matrix assumed.
Baseline (Day 1 pre-dose), Weeks 1, 2, 3, 4, 6, 8, 10 and 12
Secondary Change From Baseline In Weekly Average Of Daily Trough (Predose And Pre-Rescue Bronchodilator) Morning Peak Expiratory Flow (PEF) Over The 12-Week Treatment Period Peak expiratory flow was determined in the AM and in the PM, before administration of study or rescue medications using a handheld electronic peak flow meter. The highest value of triplicate measurements obtained was recorded by the subject's diary device.
On mornings for which a treatment visit was scheduled (TV1 through TV9), the PEF was measured and recorded at the investigational site visit.
Baseline trough AM PEF was defined as the average of recorded (non-missing) trough AM PEF assessments over the 7 days directly preceding first study drug intake.
The p-values for the treatment comparisons to placebo are from an MMRM model excluding FLOVENT DISKUS data: change from baseline = baseline PEF + sex + age + treatment + visit + treatment*visit with an unstructured covariance matrix assumed.
Baseline (Days -6 to Day 1 pre-dose), Weeks 1, 2, 3, 4, 6, 8, 10 and 12
Secondary Change From Baseline In Weekly Average Of Daily Trough (Predose And Pre-Rescue Bronchodilator) Evening Peak Expiratory Flow (PEF) Over The 12-Week Treatment Period Peak expiratory flow was determined in the AM and in the PM, before administration of study or rescue medications using a handheld electronic peak flow meter. The highest value of triplicate measurements obtained was recorded by the subject's diary device.
PM PEF baseline was defined as the average of recorded (nonmissing) PM PEF assessments over the 7 days directly preceding first study drug intake.
The p-values for the treatment comparisons to placebo are from an MMRM model excluding FLOVENT DISKUS data: change from baseline = baseline PEF + sex + age + treatment + visit + treatment*visit with an unstructured covariance matrix assumed.
Baseline (Days -6 to Day 1 pre-dose), Weeks 1, 2, 3, 4, 6, 8, 10 and 12
Secondary The Kaplan-Meier Estimate Of The Probability Of Remaining In The Study At Week 12 The analysis of probability of remaining in the study at Week 12 used the time to patient withdrawal for worsening asthma. Worsening asthma was defined as:
clinic visit FEV1 below the FEV1 stability limit value calculated on Day 1.
any 7-day run-in or treatment window (using information from the patient diary) during which the subject experienced:
3 or more days in which the highest PEF has fallen below the PEF stability limit calculated on Day 1
3 or more days in which =12 inhalations/day of albuterol/salbutamol was used
2 or more days in which the subject experienced a nighttime asthma symptom score of >2
clinical asthma exacerbation, defined as worsening asthma requiring any treatment other than study drug or rescue albuterol/salbutamol including the use of systemic corticosteroids and/or ER visit or hospitalization.
Patients who had withdrawn due to reasons other than worsening asthma were right-censored at the date of last assessment.
Day 1 to Week 12
Secondary Change From Baseline In The Percentage Of Rescue-Free 24-Hour Periods The change from baseline in the percentage of rescue-free 24-hour periods was analyzed with a marginal (also called population averaged) logistic model, with the response being the proportion of rescue-free 24-hour periods. The model included 2 time points of measurement for each subject: the baseline (the last 7 days before the treatment period) and the treatment period. The model contained covariates for sex, age, and treatment. Rescue-free days were as indicated in patient diaries.
Data values are estimated means.
Baseline (Day -6 to Day 1 predose), Treatment (Day 1 to Week 12)
Secondary Area Under The Plasma Concentration-Time Curve From Time Zero To The Time Of The Last Measurable Concentration (AUC0-t) Day 1 predose (within 10 minutes of treatment administration), and 5, 10, 15, 30, and 45 minutes, 1 hour, 1 hour 15 minutes, 1 hour 30 minutes, and 2, 4, 8, and 12 hours postdose
Secondary Maximum Observed Plasma Concentration (Cmax) Day 1 predose (within 10 minutes of treatment administration), and 5, 10, 15, 30, and 45 minutes, 1 hour, 1 hour 15 minutes, 1 hour 30 minutes, and 2, 4, 8, and 12 hours postdose
Secondary Time Of Maximum Observed Plasma Concentration (Tmax) Day 1 predose (within 10 minutes of treatment administration), and 5, 10, 15, 30, and 45 minutes, 1 hour, 1 hour 15 minutes, 1 hour 30 minutes, and 2, 4, 8, and 12 hours postdose
Secondary Patients With Treatment-Emergent Adverse Experiences (TEAE) During the Treatment Period An adverse event was defined as any untoward medical occurrence that develops or worsens in severity during the conduct of a clinical study and does not necessarily have a causal relationship to the study drug. Severity was rated by the investigator on a scale of mild, moderate and severe, with severe= an AE which prevents normal daily activities. Relationship of AE to treatment was determined by the investigator. Serious AEs include death, a life-threatening adverse event, inpatient hospitalization or prolongation of existing hospitalization, persistent or significant disability or incapacity, a congenital anomaly or birth defect, OR an important medical event that jeopardized the patient and required medical intervention to prevent the previously listed serious outcomes. Day 1 to Week 12
Secondary Patients With Positive Swab Test Results for Oral Candidiasis Oropharyngeal examinations for visual evidence of oral candidiasis were conducted at each visit. Any visual evidence of oral candidiasis during the oropharyngeal exam was evaluated by obtaining and analyzing a swab of the suspect area.
This outcomes indicates how many patients had positive swab test results. The total number of patients who had oropharyngeal exams at each timepoint are specified in the timepoint field. Appropriate therapy was to be initiated immediately at the discretion of the investigator and was not to be delayed for culture confirmation. Subjects with a culture-positive infection could continue participation in the study on appropriate anti-infective therapy, provided this therapy was not prohibited by the protocol.
Screening (Days -21 to -14), Randomization (Day 1), Weeks 1, 2, 3, 4, 6, 8, 10, 12
Secondary 24-Hour Urinary Cortisol Excretion at Baseline, Week 12 and Endpoint 24-hour urinary cortisol excretion was determined from 24-hour pooled-urine samples; urine was refrigerated until return to the investigational site after each 24-hour collection period. Urine was collected within 7 days of Day 1 and within 7 days of Week 12. Urine cortisol sample collection was not required at endpoint visit for subjects who terminated early from the study. Baseline (Day 1), Week 12, Endpoint
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