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A Study Comparing the Efficacy and Tolerability of Tobrineb®/Actitob®/Bramitob® Versus TOBI®

Phase 3
Completed
Conditions
Cystic Fibrosis
Interventions
Registration Number
NCT00885365
Lead Sponsor
Chiesi Farmaceutici S.p.A.
Brief Summary

The objectives of the study are to demonstrate that Tobrineb®/Actitob®/Bramitob® is non-inferior to TOBI® in the primary efficacy variable, forced expiratory volume in one second (FEV1) percent of predicted normal, and to compare the safety in participants with cystic fibrosis and chronic infection of the lungs with Pseudomonas aeruginosa.

Detailed Description

Not available

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
324
Inclusion Criteria
  • Patients of either sex aged ≥ 6;
  • Clinical diagnosis of cystic fibrosis defined as: (1)Patients preferably registered in the National Registry of CF (or other documents depending on country legislation); (2) Evidence of two or more typical pulmonary clinical features observed in CF, e.g., persistent colonization/infection with typical CF pathogens, chronic cough and sputum production, persistent chest radiography abnormalities, airway obstruction, nasal polyps and/or digital clubbing;
  • Positive response in the standard sweat test (sweat chloride concentration ≥ 60 mmol/l for the standard method or ≥ 80 mmol/L for a microduct technique) documented in the clinical records and/or gene mutation documented in the clinical records;
  • Chronic colonization of P. aeruginosa: presence in a sputum or throat culture of a minimum of 2 positive samples for P. aeruginosa over the previous 12 months and/or presence of more than two precipitating antibodies against P. aeruginosa;
  • Sputum containing P. aeruginosa susceptible to tobramycin (defined as a zone diameter ≥ 16 mm after testing with 10 µg tobramycin disk or as a minimal inhibition concentration based on microdilution testing system) as identified by local laboratory at screening visit;
  • Forced expiratory volume in 1 sec (FEV₁) ≥ 40% and ≤ 80% of the predicted normal value;
  • Written informed consent obtained by parents/legal representative according to local regulations) and by the patient (when appropriate).
Exclusion Criteria
  • Administration of antipseudomonal antibiotic therapy by any route in the previous 4 weeks;
  • Evidence of impaired renal function (serum creatinine level ≥ 1.5 mg/dl);
  • Evidence of impaired auditory function (auditory threshold in either ear above 20 dB at frequencies between 250 and 8000Hz);
  • Sputum culture containing Burkholderia cepacia;
  • Patients with end-stage lung disease, candidates for heart-lung transplantation;
  • History of other clinically significant cardiac, renal, neurological, gastrointestinal, hepatic or endocrine disease related to cystic fibrosis, whose sequelae and/or treatment can interfere with the results of the present study;
  • Female subjects: pregnant or with active desire to be pregnant, lactating mother or lack of efficient contraception in a subject with child-bearing potential (i.e., contraceptive methods other than rod containing a hormone that prevents user from getting pregnant and that will be placed under the skin, syringes that contain a contraceptive hormone, combined birth control pill, i.e., such that contains two hormones, some intrauterine devices (IUDs) and sexual abstinence). A pregnancy test in urine is to be carried out in women of a fertile age at screening and at the last clinic visit;
  • Known hypersensitivity to aminoglycosides;
  • Patients with evidence of alcohol or drug abuse, likely to be not compliant with the study protocol or likely to be not compliant with the study treatments;
  • Participation in another clinical trial with an investigational drug in the four weeks preceding the screening visit.

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
Bramitobtobramycin / Bramitobtobramycin / Bramitob administered 300mg twice a day for 4 weeks
TOBItobramycin / TOBItobramycin / TOBI administered 300mg twice a day for 4 weeks
Primary Outcome Measures
NameTimeMethod
Change From Baseline to End of the Treatment Period of Forced Expiratory Volume in 1 Second (FEV1), Expressed as Percentage of Predicted NormalDay 0 (baseline), Week 4

Pulmonary function measurements were performed by using a self-calibrated computer-operated pneumotochographic spirometer at all clinic visits. Because this study included both adults and children and lung volume is an age-dependent variable, reference normal FEV1 values for children were different than the reference normal values used with adult participants. Three measurements were collected and the greatest FEV1 value was recorded.

Secondary Outcome Measures
NameTimeMethod
Change From Baseline to End of Weeks 2, 4, and 8 of Absolute Forced Expiratory Volume in 1 Second (FEV1)Day 0 (baseline), Week 2, Week 4, Week 8

Pulmonary function measurements were performed by using a self-calibrated computer-operated pneumotochographic spirometer at all clinic visits. Three measurements were collected and the greatest FEV1 value was recorded. Observed values are summarized (without last observation carry forward).

Minimal Inhibitory Concentration Inhibiting Growth of 90% (MIC90) of Pseudomonas AeruginosaWeek 4, Week 8

MIC90 is the concentration of tobramycin required to inhibit 90% of Pseudomonas aeruginosa. MIC values were calculated for three different Pseudomonas aeruginosa (PA) strains:

* Morphotype 1: mucoid

* Morphotype 2: dry

* Morphotype 3: variant

Overall MIC90 values are reported. If a participant has more than one PA morphotype at a given visit, then the highest tobramycin MIC value was used, regardless of PA morphotype. If a participant has more than one available result for each morphotype then the highest tobramycin MIC value was used. If the tobramycin MIC values are equal then the MIC value for the isolate with the highest bacterial load value was used.

Change From Baseline at End of Weeks 2, 4, and 8 of Forced Vital Capacity (FVC) Expressed as Percentage of Predicted NormalDay 0 (baseline), Week 2, Week 4, Week 8

FVC is the amount of air which can be forcibly exhaled from the lungs after taking the deepest breath possible. It is measured via spirometry. Because this study included both adults and children and lung volume is an age-dependent variable, reference normal FVC values for children were different than the reference normal values used with adult participants.

Change From Baseline to End of Weeks 2, 4 and 8 in Body WeightDay 0 (baseline), Weeks 2, 4 and 8

Body weight was measured at all study visits as part of the physical examination.

Change From Baseline to End of Weeks 2, 4 and 8 in Body Mass Index (BMI)Day 0 (baseline), Weeks 2, 4 and 8
Change From Baseline to End of Weeks 2, 4, and 8 of Forced Expiratory Volume in 1 Second (FEV1), Expressed as Percentage of Predicted NormalDay 0 (baseline), Week 2, Week 4, Week 8

Pulmonary function measurements were performed by using a self-calibrated computer-operated pneumotochographic spirometer at all clinic visits. Because this study included both adults and children and lung volume is an age-dependent variable, reference normal FEV1 values for children were different than the reference normal values used with adult participants. Three measurements were collected and the greatest FEV1 value was recorded. Observed values are summarized (without last observation carry forward).

Change From Baseline to End of Weeks 2, 4, and 8 of Absolute Forced Vital Capacity (FVC)Day 0 (baseline), Week 2, Week 4, Week 8

FVC is the amount of air which can be forcibly exhaled from the lungs after taking the deepest breath possible. It is measured via spirometry.

Microbiological Outcome Summary by VisitDay -10 to -1 (screening), Weeks 4 and 8

Microbiological outcomes are derived considering all P. aeruginosa (PA) morphotypes together.

Week 4 and Week 8 microbiological outcomes:

* Eradication = elimination of PA

* Persistence = persistence of PA detected at previous visit

* Superinfection = appearance of a pathogen (other than PA) not detected at previous visit

* Re-infection (week 8 only) = re-appearance of PA detected at Screening and eradicated at Week 4

Superinfection supersedes eradication. Persistence for P. aeruginosa supersedes superinfection.

Re-infection for P. aeruginosa supersedes superinfection.

Change From Baseline to End of Weeks 2, 4, and 8 of Forced Expiratory Flow at 25-75% of Vital Capacity (FEF 25-75%), Expressed as Percentage of Predicted NormalDay 0 (baseline), Week 2, Week 4, Week 8

Difference in the forced expiratory flow rate in mid-exhalation as a percent of predicted to standard values measured from baseline to weeks 2 (treated), 4 (treated), and 8 (untreated). Because this study included both adults and children and lung volume is an age-dependent variable, reference normal FEF 25-75% values for children were different than the reference normal values used with adult participants.

Change From Baseline to End of Weeks 4 and 8 in Pseudomonas Aeruginosa Log10 Bacterial Load in SputumDay -10 to -1 (baseline), Week 4, Week 8

If a participant had more than one Pseudomonas aeruginosa (PA) morphotype at a given visit, and therefore more than one bacterial load value, then the bacterial load value corresponding to the highest tobramycin minimal inhibitory concentration (MIC) value regardless of the PA morphotype was used. If the tobramycin MIC value was the same for different PA morphotypes, then the bacterial load value corresponding to morphotype 1 (mucoid colony) was used. If morphotype 1 was not available, bacterial load value corresponding to morphotype 2 (dry colony) was used.

Change From Baseline to End of Weeks 2, 4, and 8 of Forced Expiratory Flow at 25-75% of Vital Capacity (FEF 25-75%)Day 0 (baseline), Week 2, Week 4, Week 8

Difference in the forced expiratory flow rate in mid-exhalation measured from baseline to weeks 2 (treated), 4 (treated), and 8 (untreated).

Minimal Inhibitory Concentration Inhibiting Growth of 50% (MIC50) of Pseudomonas AeruginosaWeek 4, Week 8

MIC50 is the concentration of tobramycin required to inhibit 50% of Pseudomonas aeruginosa. MIC values were calculated for three different Pseudomonas aeruginosa (PA) strains:

* Morphotype 1: mucoid

* Morphotype 2: dry

* Morphotype 3: variant

Overall MIC50 values are reported. If a participant has more than one PA morphotype at a given visit, then the highest tobramycin MIC value was used, regardless of PA morphotype. If a participant has more than one available result for each morphotype then the highest tobramycin MIC value was used. If the tobramycin MIC values are equal then the MIC value for the isolate with the highest bacterial load value was used.

Count of Participants With Treatment-Emergent Adverse Events (TEAEs)Day 0 to Week 8

Treatment-Emergent Adverse Events defined as adverse events occurring after the first intake of study treatment (or the same day).

The investigator assessed relation to study treatment as a binary question: Reasonable possibility of relatedness or no reasonable possibility of relatedness. The expression "reasonable possibility of relatedness" is meant to convey in general that there are facts (evidence) or arguments meant to suggest a causal relationship.

A serious AE results in death, is life-threatening, requires hospitalization or prolongation of existing inpatient hospitalization, results in persistent or significant disability or incapacity, is a congenital anomaly/birth defect or an important medical event.

The investigator rates the severity of the AE based on a three point scale: mild, moderate or severe. A severe event prevents any usual routine activity of the participant and causes severe discomfort.

Participants With a Hearing Threshold >20 Decibel in at Least One EarDay -10 to -1 (screening), Weeks 4 and 8

The potential ototoxic effects (hearing loss) of tobramycin were investigated by performing audiometric tests. Participants with a loss of auditory acuity greater than the 20 decibels auditory threshold are reported.

Trial Locations

Locations (43)

Hopital Arnaud de Villeneuve, Clinique des maladies respiratoires

🇫🇷

Montpellier, France

Centrum pro cystickou fibrosu, Pediatricka klinika UK 2.LF, Fakultní nemocnice v Motole

🇨🇿

Praha, Czechia

CHR Clemenceau

🇫🇷

Caen, France

Hopital Necker

🇫🇷

Paris, France

Pädiatrische Pneumologie und Allergologie, Mukovizidose-Zentrum, Zentrum für Kinderheilkunde und Jugendmedizin

🇩🇪

GieBen, Germany

HELIOS Klinikum Krefeld, Zentrum für Kinder- und Jugendmedizin

🇩🇪

Krefeld, Germany

Klinika Pediatrii Instytut Matki I Dziecka

🇵🇱

Warszawa, Poland

State Medical Institution: Republican Childrens Clinical Hospital under the Ministry of Health of the Republic of Tatarstan

🇷🇺

Kazan, Russian Federation

Regional State Medical Institution: Smolensk Regional Children's Clinical Hospital

🇷🇺

Smolensk, Russian Federation

State Medical Institution: Filatov Chidren's City Clinical Hospital #13

🇷🇺

Moscow, Russian Federation

Saint-Petersburg State Medical Institution: City Children's Hospital of Saint Olga

🇷🇺

St. Petersburg, Russian Federation

Minicipal Medical Institution: Children's Clinical Hospital #1

🇷🇺

Yaroslavl, Russian Federation

Complejo Hospitalario Universitario A Coruña

🇪🇸

A Coruña, Spain

Hospital Universitario La Paz

🇪🇸

Madrid, Spain

Complejo Hospitalario Universitario A Coruña (Hospital Materno-Infantil Teresa Herrera)

🇪🇸

A Coruña, Spain

Hospital Universitario La Fe

🇪🇸

Valencia, Spain

Hospital Universitario Ntra Sra. De la Candelaria

🇪🇸

Santa Cruz de Tenerife, Spain

Corporació Sanitaria Parc Tauli

🇪🇸

Sabadell, Spain

Hospital Universitario Miguel Servet (Children)

🇪🇸

Zaragoza, Spain

Kriviy Rig City Clinical Hospital # 8

🇺🇦

Kriviy Rig, Ukraine

Institute of Pediatrics, Obstetrics and Gynecology of the Academy of Medical Science of Ukraine

🇺🇦

Kyiv, Ukraine

Zaporizhya Regional Clinical Children Hospital

🇺🇦

Zaporizhya, Ukraine

Specjalistyczny ZOZ nad Matka i Dzieckiem, Poradnia Leczenia Mukowiscydozy

🇵🇱

Gdansk, Poland

Fővárosi Önkormányzat Heim Pál

🇭🇺

Budapest, Hungary

Klinika Pneumonologii, Alergologii Dzieciecej i Immunologii Klinicznej Szpital Kliniczny Uniwersytetu Medycznego w Poznaniu

🇵🇱

Poznan, Poland

State Higher Educational Institution: Burdenko Voronezh State Medical Academy under the Roszdrav

🇷🇺

Voronezh, Russian Federation

Dnipropetrovsk City Children Clinical Hospital # 2

🇺🇦

Dnipropetrovsk, Ukraine

Dzieciecy Szpital Kliniczny Akademii Medycznej, Klinika Chorob Pluc I Reumatologii

🇵🇱

Lublin, Poland

Odesa Regional Children Clinical Hospital

🇺🇦

Odesa, Ukraine

Federal State Institution: Scientific Research Pulmonology Institute under the Roszdrav

🇷🇺

Moscow, Russian Federation

Szegedi Tudományegyetem Szent-Györgyi Albert Orvos- és Gyógyszerésztudományi Centrum

🇭🇺

Szeged, Hungary

Federal State Institution "Nizhegorodskiy Research Institute of Children's Gastroenterology of Russian Medical Technologies"

🇷🇺

Nizhniy Novgorod, Russian Federation

State Medical Institution: Regional Children's Hospital Pulmonology Department

🇷🇺

Rostov-on-Don, Russian Federation

Donetsk Regional Children Clinical Hospital

🇺🇦

Donetsk, Ukraine

I Oddzial Chorob Dzieciecych, Wojewodzki Specjalistyczny Szpital Dzieciecy

🇵🇱

Kielce, Poland

Poradnia Mukowiscydozy Wojewodzkiej, Przychodni Specjalistycznej dla Dzieci, Szpitala Wojewodzkiego Nr 2

🇵🇱

Rzeszow, Poland

State Higher Educational Institution: Bashkir State Medical University under the Roszdrav

🇷🇺

Ufa, Russian Federation

Simferopol Central District Clinical Hospital

🇺🇦

Simferopol, Ukraine

Oddzial Kliniczny Interny Dzieciecej i Alergologii, Wojewodzki Szpital Specjalistyczny

🇵🇱

Lodz, Poland

Klinika Pneumonologii i Mukowiscydozy, Instytut Gruzlicy i Chorob Pluc w Rabce Zdroj

🇵🇱

Rabka Zdroj, Poland

Institute of Phthysiology and Pulmonology n.a., F.G.Yanovskiy of the Academy of Medical Science of Ukraine

🇺🇦

Kyiv, Ukraine

Lviv Regional Children Specialized Clinical Hospital

🇺🇦

Lviv, Ukraine

Kaposi Mór Oktatókórház

🇭🇺

Mosdos, Hungary

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