Lung Cancer Clinical Trial
Pivotal, Open-label, Randomized Study of Radiosurgery With or Without Tumor Treating Fields (TTFields) for 1-10 Brain Metastases From Non-small Cell Lung Cancer (NSCLC).
Summary
The study is a prospective, randomized controlled phase III trial, to test the efficacy, safety and neurocognitive outcomes of advanced NSCLC patients, following stereotactic radiosurgery (SRS) for 1 inoperable brain metastasis or 2-10 brain metastases, treated with NovoTTF-200M and supportive treatment compared to supportive treatment alone. The device is an experimental, portable, battery operated device for chronic administration of alternating electric fields (termed TTFields or TTF) to the region of the malignant tumor, by means of surface, insulated electrode arrays.
Full Description
PAST PRE-CLINICAL AND CLINICAL EXPERIENCE:
The effect of the electric fields (TTFields, TTF) has demonstrated significant activity in in vitro and in vivo NSCLC pre-clinical models both as a single modality treatment and in combination with chemotherapies. TTFields have also shown to inhibit metastatic spread of malignant melanoma in in vivo experiment.
In a pilot study, 42 patients with advanced NSCLC who had tumor progression after at least one line of prior chemotherapy, received pemetrexed together with TTFields (150 kHz) applied to the chest and upper abdomen until disease progression (Pless M., et al., Lung Cancer 2011). Efficacy endpoints were remarkably high compared to historical data for pemetrexed alone.
In addition, a phase III trial of Optune® (200 kHz) as monotherapy compared to active chemotherapy in recurrent glioblastoma patients showed TTFields to be equivalent to active chemotherapy in extending survival, associated with minimal toxicity, good quality of life, and activity within the brain (14% response rate) (Stupp R., et al., EJC 2012). Finally, a phase III trial of Optune® combined with maintenance temozolomide compared to maintenance temozolomide alone has shown that combined therapy led to a significant improvement in both progression free survival and overall survival in patients with newly diagnosed glioblastoma without the addition of high grade toxicity and without decline in quality of life (Stupp R., et al., JAMA 2015).
Applying TTFields at 150 kHz to the brain for the treatment of 1-5 brain metastasis from NSCLC using the NovoTTF-100M device has been demonstrated to be safe in a pilot study, where patients were randomized after local therapy of their brain metastasis by neurosurgery and/or stereotactic radiosurgery to receive either NovoTTF-100M treatment or supportive care alone. Eighteen (18) patients have been enrolled in the study. There have been no device-related serious adverse events (SAE) reported to date (Brozova H., et al., Neuro Oncol 2016).
DESCRIPTION OF THE TRIAL:
All patients included in this trial are patients with 1-10 brain metastases from NSCLC which are amenable to stereotactic radiosurgery (SRS). In addition, all patients must meet all eligibility criteria.
Eligible patients will be randomly assigned to one of two groups:
Patients undergo SRS followed by TTFields using the NovoTTF-200M System
Patients undergo SRS alone and receive supportive care. Patients in both arms of the study may receive systemic therapy for their NSCLC at the discretion of their treating physician.
Patients will be randomized at a 1:1 ratio. Baseline tests will be performed in patients enrolled in both arms. If assigned to the NovoTTF-200M group, the patients will be treated continuously with the device until second intracranial progression.
On both arms, patients who recur anywhere in the brain will be offered one of the following salvage treatments (according to local practice) including, but not limited to:
Surgery
Repeat SRS
Whole brain radiotherapy (WBRT) Patients on the control arm will be offered to cross over to the NovoTTF-200M arm of the study and receive TTFields with or without salvage therapy for second intracranial progression if the investigator believes it is in the best interest of the patient and patient agrees.
SCIENTIFIC BACKGROUND:
Electric fields exert forces on electric charges similar to the way a magnet exerts forces on metallic particles within a magnetic field. These forces cause movement and rotation of electrically charged biological building blocks, much like the alignment of metallic particles seen along the lines of force radiating outwards from a magnet.
Electric fields can also cause muscles to twitch and if strong enough may heat tissues. TTFields are alternating electric fields of low intensity. This means that they change their direction repetitively many times a second. Since they change direction very rapidly (150 thousand times a second), they do not cause muscles to twitch, nor do they have any effects on other electrically activated tissues in the body (brain, nerves and heart). Since the intensities of TTFields in the body are very low, they do not cause heating.
The breakthrough finding made by Novocure was that finely tuned alternating fields of very low intensity, now termed TTFields (Tumor Treating Fields), cause a significant slowing in the growth of cancer cells. Due to the unique geometric shape of cancer cells when they are multiplying, TTFields cause electrically- charged cellular components of these cells to change their location within the dividing cell, disrupting their normal function and ultimately leading to cell death.. In addition, cancer cells also contain miniature building blocks which act as tiny motors in moving essential parts of the cells from place to place. TTFields interfere with the normal orientation of these tiny motors related to other cellular components since they are electrically-charged as well. As a result of these two effects, tumor cell division is slowed, results in cellular death or reverses after continuous exposure to TTFields.
Other cells in the body (normal healthy tissues) are affected much less than cancer cells since they multiply at a much slower rate if at all. In addition TTFields can be directed to a certain part of the body, leaving sensitive areas out of their reach. Finally, the frequency of TTFields applied to each type of cancer is specific and may not damage normally dividing cells in healthy tissues. In conclusion, TTFields hold the promise of serving as a brand new treatment for brain metastases from NSCLC with very few side effects.
Eligibility Criteria
Inclusion Criteria:
18 years of age and older
Life expectancy of ≥ 3 months
New diagnosis of brain metastases from a histologically or cytologically confirmed primary or metastatic NSCLC tumor within 5 years of registration on the study. If the original histological proof of malignancy is greater than 5 years, then pathological confirmation is required (i.e.: from extra-cranial or intracranial disease).
5. 1 inoperable brain metastasis or 2- 10 brain lesions per screening MRI, confirmed by contrast enhanced MRI amenable to SRS according to the following criteria:
a. largest tumor volume < 10 cc b. longest tumor diameter < 3 cm c. Cumulative volume of all tumors ≤ 15 cc 6. At least one measurable disease per study protocol 7. Patients must be receiving optimal therapy for their extracranial disease according to local practice at each center. Patients may continue on systemic therapy while receiving TTFields.
8. Able to operate the NovoTTF-200M device independently or with the help of a caregiver 9. Clinical trials prior to enrollment are allowed, as long as no brain directed therapy was included (current treatment trials are exclusionary)
Exclusion Criteria:
Patients who are known to have somatic tumor mutations in the following genes, for which targeted agents are available that directly affect the treatment of brain metastasis: Anaplastic lymphoma kinase (ALK), epidermal growth factor receptor (EGFR), ROS-1 proto- oncogene, and proto-oncogene B-RAF
Patients who have a single, operable brain metastasis
Patients with significant edema leading to risk of brain herniation
Patients with midline shift > 10mm
Patients with intractable seizures
Leptomeningeal metastases
Recurrent brain metastases
Prior WBRT for newly diagnosed brain metastases
Severe comorbidities:
Clinically-significant inadequate hematological, hepatic and renal function, defined as: Neutrophil count < 1.5 x 10 9/L and platelet count < 100 x 10^9/L; bilirubin > 1.5 x upper limit of normal (ULN); aspartate transaminase (AST) and/or alanine aminotransferase (ALT) > 2.5 x ULN or > 5 x ULN if patient has documented liver metastases; and serum creatinine > 1.5 x ULN
History of significant cardiovascular disease unless the disease is well controlled. Significant cardiac disease includes second/ third degree heart block; significant ischemic heart disease; poorly controlled hypertension; congestive heart failure of the New York Heart Association (NYHA) Class II or worse (slight limitation of physical activity; comfortable at rest, but ordinary activity results in fatigue, palpitation or dyspnea).
History of arrhythmia that is symptomatic or requires treatment. Patients with atrial fibrillation or flutter controlled by medication are not excluded from participation in the study.
History of cerebrovascular accident (CVA) within 6 months prior to randomization or that is not stable
Active infection or serious underlying medical condition that would impair the ability of the patient to received protocol therapy
History of any psychiatric condition that might impair patient's ability to understand or comply with the requirements of the study or to provide consent
Implantable electronic medical devices in the brain
Known allergies to medical adhesives or hydrogel
Currently pregnant or breastfeeding
Planned concurrent brain directed therapy (beyond SRS and NovoTTF-200M as per protocol)
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There are 99 Locations for this study
Birmingham Alabama, 35233, United States
Birmingham Alabama, 35243, United States
Mobile Alabama, 36607, United States
Phoenix Arizona, 85013, United States
Phoenix Arizona, 85054, United States
Long Beach California, 90806, United States
Orange California, 92868, United States
Redwood City California, 94063, United States
Sacramento California, 95816, United States
Sacramento California, 95825, United States
San Diego California, 92123, United States
San Francisco California, 94117, United States
Grand Junction Colorado, 81501, United States
Greeley Colorado, 80631, United States
Loveland Colorado, 80583, United States
Jacksonville Florida, 32207, United States
Jacksonville Florida, 32209, United States
Jacksonville Florida, 32224, United States
Miami Florida, 33176, United States
Orlando Florida, 32806, United States
Orlando Florida, 32806, United States
Plantation Florida, 33324, United States
Atlanta Georgia, 30309, United States
Savannah Georgia, 31404, United States
Warrenville Illinois, 60555, United States
Kansas City Kansas, 66160, United States
Lexington Kentucky, 40536, United States
Louisville Kentucky, 40202, United States
New Orleans Louisiana, 70121, United States
Shreveport Louisiana, 71103, United States
Baltimore Maryland, 21201, United States
Bethesda Maryland, 20814, United States
Boston Massachusetts, 02111, United States
Boston Massachusetts, 02215, United States
Detroit Michigan, 48201, United States
Minneapolis Minnesota, 55407, United States
Minneapolis Minnesota, 55407, United States
Minneapolis Minnesota, 55455, United States
Jackson Mississippi, 39216, United States
Columbia Missouri, 65212, United States
Saint Louis Missouri, 63141, United States
Reno Nevada, 89502, United States
Camden New Jersey, 08103, United States
Chapel Hill North Carolina, 27599, United States
Greenville North Carolina, 27834, United States
Winston-Salem North Carolina, 27157, United States
Cleveland Ohio, 44195, United States
Portland Oregon, 97225, United States
Danville Pennsylvania, 17822, United States
Providence Rhode Island, 02903, United States
Charleston South Carolina, 29425, United States
Greenville South Carolina, 29605, United States
Chattanooga Tennessee, 37403, United States
Germantown Tennessee, 38138, United States
Houston Texas, 77030, United States
Houston Texas, 77030, United States
McKinney Texas, 75701, United States
Plano Texas, 75093, United States
Waco Texas, 76712, United States
Seattle Washington, 98195, United States
Milwaukee Wisconsin, 53215, United States
Innsbruck , 6020, Austria
Sofia , 1431, Bulgaria
Sofia , 1797, Bulgaria
Winnipeg Manitoba, R3E 0, Canada
Montreal Quebec, H2L 4, Canada
Montreal Quebec, H3T 1, Canada
Montréal Quebec, H1T-2, Canada
Sherbrooke Quebec, J1H 5, Canada
Beijing Chaoyang, 10002, China
Guangzhou Guangdong, , China
Wuhan Hubei, , China
Wuhan Hubei, , China
Nanjing Jiangsu, 21000, China
Suzhou Jiangsu, , China
Yangzhou Jiangsu, 22500, China
Shenyang Liaoning, 11004, China
Xi'an Shaanxi, 71006, China
Jinan Shandong, , China
Jinan Shandong, , China
Qingdao Shandong, , China
Zigong Sichuan, , China
Tianjin Tianjin, 30006, China
Shanghai Xuhui District, , China
Zhejiang Zhejiang, , China
Beijing , , China
Changchun , , China
Hebei , , China
Shenyang , , China
Shenzhen , , China
Xiamen , , China
Sveta Nedelja , 10431, Croatia
Lille , 59037, France
Marseille , 13009, France
Paris , 75013, France
Saint-Étienne , 42055, France
Berlin , 13353, Germany
Düsseldorf , 40225, Germany
Frankfurt am Main , 60528, Germany
Frankfurt am main , 60528, Germany
Halle (Saale) , 06120, Germany
Heidelberg , 69120, Germany
Hong Kong , , Hong Kong
Budapest , 1122, Hungary
Szekszárd , , Hungary
Szolnok , 5000, Hungary
Haifa , 31096, Israel
Jerusalem , 91120, Israel
Petah Tikva , 49414, Israel
Ramat Gan , , Israel
Tel Aviv , , Israel
Avellino , 83100, Italy
Bergamo , 24125, Italy
Firenze , 50134, Italy
Lecco , , Italy
Messina , 98125, Italy
Milan , 20133, Italy
Torino , 10126, Italy
Bydgoszcz , 85357, Poland
Gdańsk , , Poland
Gliwice , 44-10, Poland
Lublin , 20-06, Poland
Poznań , , Poland
Warsaw , 03-24, Poland
Belgrad , 11000, Serbia
Barcelona , , Spain
Madrid , 28050, Spain
Pamplona , , Spain
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