Low-dose (12 Gy) TSEBT+Vorinostat Versus Low-dose TSEBT Monotherapy in Mycosis Fungoides

NCT ID: NCT01187446

Last Updated: 2017-11-20

Basic Information

• Recruitment Status: TERMINATED
• Clinical Phase: PHASE1/PHASE2
• Total Enrollment: 28 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2010-12-31
• Study Completion Date: 2014-02-28

Brief Summary

The purpose of this study is to determine if vorinostat combined with low-dose total skin electron beam therapy (TSEBT) offers superior clinical benefit (efficacy & safety) over low-dose TSEBT alone in participants with mycosis fungoides (MF)

Treatment in this study is TSEBT +/- vorinostat, with participants stratified by MF stage.

Detailed Description

Vorinostat is a histone deacetylase inhibitor (HDAC) that is FDA-approved for treatment of mycosis fungoides (MF), and has shown activity as a radiation-sensitizer in preclinical studies. Treatment of various cell lines [glioblastoma multiforme (GBM), non-small cell lung cancer (NSCLC), melanoma] has shown that pretreatment with vorinostat had a significant effect on radiation kill. This effect is believed to be secondary to multiple mechanisms that may involve antiproliferative growth inhibition and effects on DNA repair after exposure to radiation. A histone deacetylase inhibitor such as vorinostat may act as a radiosensitizer by modulating the expression of single- and double-strand DNA repair proteins such as KU67, KU86, H2AX, and Rad50. These DNA repair proteins are enzymes of that repair radiation-induced damage. The decrease in these DNA repair enzymes is thought to be the key mechanism of sensitization. Down-regulation of several key proteins involved in the nonhomologous end joining pathway is thought to generate a G2/M checkpoint blockade. Vorinostat may also cause an "open chromatin" structure increasing the effect of radiation damage to DNA. This is exemplified by the finding that there is a prolonged H2AX phosphorylation and H2AX foci formation. The mechanism producing this prolongation of H2AX foci is thought to contribute to the damage, and thus killing effect of the radiation.

In the pivotal phase 2 trial of vorinostat, an overall response rate of nearly 30% was reported. The median time to progression was 4.9 months overall, and 9.8 months for MF stage IIB or higher responders. Through hyperacetylation of both histone and non-histone proteins, vorinostat is felt to exert its anti-tumor activity via several mechanisms, including cell cycle arrest, induction of apoptosis, reactive oxygen species generation, cell differentiation, and angiogenesis inhibition. Importantly, a number of pre-clinical studies have reported on the potential of vorinostat to enhance radiosensitivity of several different human tumor cell lines. The rational for clinical trial investigating combination of vorinostat and TSEBT not only comes from their underlying mechanism for potential synergy as suggested by prior in-vitro studies but also due to general therapeutic advantage derived from their non-overlapping toxicities.

Recent results from a phase 1 dose-escalation trial combining palliative pelvic radiation (30 Gy in 3 Gy fractions over 2 weeks) and vorinostat in study participants with histologically-confirmed intrapelvic gastrointestinal carcinoma. Sixteen participants were enrolled into cohorts of escalating vorinostat dose (100 mg, 200 mg, 300 mg, and 400 mg daily). The most common adverse events were grade 1 and 2, among which fatigue and gastrointestinal events were most common. Grade 3 adverse events included fatigue (n = 5), hyponatremia (n = 1), hypokalemia (n = 1), and acneiform rash (n = 1). Of these, treatment related grade 3 events [ie, dose limiting toxicities (DLT)] were observed in 1 of 6 participants at vorinostat 300 mg daily (fatigue and anorexia), and in 2 of 6 participants at the 400 mg daily dose. As a result, the maximum tolerated dose of vorinostat in combination with palliative radiotherapy was determined to be 300mg daily. The study concluded that vorinostat can be safely combined with short term palliative radiotherapy. It should be noted that the adverse events observed in the combination trial overlap with the toxicity profile of vorinostat listed in the package insert.

Anecdotal experience in a patient who was failing standard course of TSEBT is relevant and is described here. This patient's skin lesions were progressing towards the latter half of his TSEBT course, thus, vorinostat was initiated and overlapped with TSEBT in the last 2 weeks. The patient tolerated the combination well without any worsening skin reactions and his skin lesions cleared completely. At one year follow-up, his skin is still in complete remission. Another patient received a combination of romidepsin, another (HDAC) inhibitor, and low-dose (12 Gy) TSEBT. He had CR after the addition of TSEBT, while his skin lesions were stable on romidepsin alone.

Based on preclinical, early clinical data and anecdotal experience, it is anticipated that vorinostat in combination with TSEBT can be administered safely and will be tolerated in participants with MF. In addition, within the recognized limits of a phase 1-2 clinical trial, this study may provide an assessment of the anti-tumor activity of vorinostat in combination with TSEBT in participants with MF and thus allow us to evaluate the radiation-enhancing potential of vorinostat.

This study is a multicenter phase 1-2, randomized, 2-arm trail exploring the efficacy of TSEBT 12 Gy alone vs TSEBT 12 Gy + vorinostat. 12 Gy was selected for this study because it is effective as a rapid debulking agent (with overall response rates of near 100% in the retrospective study and ongoing clinical trial) and can be administered conveniently over 3 weeks. Because of the diminished clinical CR rates associated with TSEBT doses < 30 Gy, it is proposed that combining TSEBT 12 Gy with vorinostat will lead to significantly higher complete response (CR) rates, longer time-to-progression (TTP), and improved quality of life as compared to TSEBT 12 Gy alone. Based on the retrospective study and preliminary experience in the ongoing 12 Gy TSEBT trial, it is hypothesized that 12 Gy is an adequate dose to achieve clinically meaningful outcomes and that the vorinostat may enhance its clinical efficacy while minimizing radiation-associated toxicities due to the shortened treatment duration.

Participants are stratified by MF stage as follows.

• Stage IB: ~10 % skin involvement, with up to 1000/mm3 clone+ Sezary cells in blood.
• Stage IIA: Up to 10 % skin involvement, with up to 1000/mm3 clone+ Sezary cells in blood and clinically abnormal peripheral lymph nodes.
• Stage IIB: One or more tumors 1 cm in diameter, with up to 1000/mm3 clone+ Sezary cells in blood and clinically abnormal peripheral lymph nodes.
• Stage IIIB: Skin erythema >80 % body surface area, with up to 1000/mm3 clone+ Sezary cells in blood and clinically abnormal peripheral lymph nodes.

For detailed staging information, see References: Olsen E, et al. Blood. 2007;110:1713-1722. PMID: 17540844

Conditions

Cutaneous Lymphoma; Cutaneous T-cell Lymphoma

Keywords

Cutaneous T-cell Lymphoma

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: NONE

Study Groups

TSEBT & Vorinostat

Total skin electron beam therapy (TSEBT) will be performed per institution guidelines.

Vorinostat will be administered at a dose of 400 mg/day, starting one day prior to the initiation of TSEBT. During TSEBT, vorinostat should be taken in the morning and preferably prior to TSEBT.

Group Type: EXPERIMENTAL

Total skin electron beam therapy (TSEBT)

Intervention Type: RADIATION

TSEBT is administered as 12 Gy fractionated at 2 grey (Gy)/cycle (each cycle requiring 2 days of treatment); 4 days each week; for 3 weeks.

Vorinostat

Intervention Type: DRUG

Starting doses of is vorinostat 400 mg/day, continuing for 8 weeks.

TSEBT only

Total skin electron beam therapy (TSEBT) will be administered according to the Stanford 6-field technique or equivalent technique per institutional standards. Patients will receive a planned total skin dose of 12 grey (Gy) fractionated at 2 Gy/cycle (each cycle requiring 2 days of treatment); 4 days each week; for a total of 3 weeks. Supplements will routinely be applied to the perineum and soles as well as any other "shadowed" sites involved by disease, such as the inframammary regions (1-2 Gy fractions to a total dose of 12 Gy). Discrete tumors may receive additional "boost" treatment not to exceed 12 Gy.

Group Type: ACTIVE_COMPARATOR

Total skin electron beam therapy (TSEBT)

Intervention Type: RADIATION

TSEBT is administered as 12 Gy fractionated at 2 grey (Gy)/cycle (each cycle requiring 2 days of treatment); 4 days each week; for 3 weeks.

Interventions

Total skin electron beam therapy (TSEBT)

TSEBT is administered as 12 Gy fractionated at 2 grey (Gy)/cycle (each cycle requiring 2 days of treatment); 4 days each week; for 3 weeks.

Intervention Type: RADIATION

Vorinostat

Starting doses of is vorinostat 400 mg/day, continuing for 8 weeks.

Intervention Type: DRUG

Other Intervention Names

Zolinza

Eligibility Criteria

Inclusion Criteria

• Biopsy-confirmed mycosis fungoides (MF); clinical stage IB; IIA; IIB; or IIIB.
• Patients must have failed or have been intolerant to at least one prior systemic or skin-directed therapy. This may include topical steroids if used as primary therapy for MF.
• 18 years of age or older.
• Eastern Cooperative Oncology Group (ECOG) of ≤ 2.
• White blood cell (WBC) > 2000/uL
• Platelet count > 75,000/mm3
• Absolute neutrophil count (ANC) > 1000.
• Bilirubin ≤ 1.5 x upper limit of normal (ULN)
• Aspartate aminotransferase (AST) ≤ 2.5 x UNL
• Alanine aminotransferase (ALT) ≤ 2.5 x UNL
• Alkaline phosphatase (liver fraction) ≤ 2.5 x ULN
• Creatinine ≤ 1.5 x UNL OR creatinine clearance ≤ 60 mL/min for patients with creatinine levels > 1.5 x institutional ULN
• Potassium level between 3.5 and 4.5
• Magnesium level between 1.5 and 2.5
• Required washout period for prior therapies

• Topical therapy: 2 weeks
• Systemic biologic, monoclonal antibody, or chemotherapy: 4 weeks
• Phototherapy or radiotherapy (excluding TSEBT): 4 weeks
• Other investigational therapy: 4 weeks
• Note: patients with rapidly progressive disease may be treated earlier than required washout period; however, such circumstance must be discussed and approved by the protocol director at the primary site (Stanford).
• Women of child-bearing potential (WOCBP) must have negative serum pregnancy test.
• WOCBP must agree to use effective contraception, defined as oral contraceptives, intrauterine devices, double barrier method (condom plus spermicide or diaphragm) or abstain from sexual intercourse. WOCBP includes any female who has experienced menarche and who has not undergone successful surgical sterilization or is not postmenopausal (defined as amenorrhea for 12 consecutive months).
• Male subjects must be willing to use an appropriate method of contraception (eg, condoms) or abstain from sexual intercourse and inform any sexual partners that they must also use a reliable method of contraception (eg, birth control pills) during the study.
• Ability to understand and sign a written informed consent document.
• Ability to comply with the treatment schedule

Exclusion Criteria

• Prior courses of TSEBT (Note : localized skin-directed radiotherapy is allowed if administered at least 4 weeks prior to initiation on study).
• Concomitant use of any anti-cancer therapy or immune modifier.
• Receiving colony stimulating factors.
• Prior allogeneic or autologous transplant.
• Active infection or have received intravenous antibiotics, antiviral, or antifungal agents within 2 weeks prior to the start of the study drug.
• Known history of human immunodeficiency virus (HIV), hepatitis B or C.
• History of prior malignancy with the exception of cervical intraepithelial neoplasia, non-melanoma skin cancer, and adequately treated localized prostate carcinoma (PSA < 1.0). Patients with a history of other malignancies must have undergone potentially curative therapy and have no evidence of that disease for 5 years.
• Uncontrolled intercurrent illness, condition, or circumstances that could limit compliance with the study, including, but not limited to the following: active infection, acute or chronic graft versus host disease, symptomatic congestive heart failure, unstable angina pectoris, medically significant cardiac arrhythmia, uncontrolled diabetes mellitus or hypertension, or psychiatric conditions.
• Medically significant cardiac event in prior 6 months (ie, myocardial infarction, cardiac surgery.
• Congenital long QT syndrome.
• QTc interval > 480 msec on screening ECG.
• Proven or suspected stage IV disease including patients with B2 (Sezary syndrome); N3 (frank LN disease); or M1 (visceral disease) categories; presence of reactive or dermatopathic lymphadenopathy (N1-2) or limited blood involvement (B1) is permitted.
• Pregnant or lactating.
• Unwilling to use reliable birth control methods.
• Any other medical issue, including laboratory abnormalities, deemed by the Investigator to be likely to interfere with patient participation.
• Unwilling or unable to provide informed consent.

• Minimum Eligible Age: 18 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Stanford University

OTHER

Sponsor Role: lead

Responsible Party

Youn Kim

Professor of Medicine

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

Youn H Kim

Role: PRINCIPAL_INVESTIGATOR

Stanford University

Locations

Stanford University School of Medicine

Stanford, California, United States

Yale University School of Medicine

New Haven, Connecticut, United States

MD Anderson Cancer Center

Houston, Texas, United States

Countries

United States

References

Zelenetz AD, Abramson JS, Advani RH, Andreadis CB, Byrd JC, Czuczman MS, Fayad L, Forero A, Glenn MJ, Gockerman JP, Gordon LI, Harris NL, Hoppe RT, Horwitz SM, Kaminski MS, Kim YH, Lacasce AS, Mughal TI, Nademanee A, Porcu P, Press O, Prosnitz L, Reddy N, Smith MR, Sokol L, Swinnen L, Vose JM, Wierda WG, Yahalom J, Yunus F. NCCN Clinical Practice Guidelines in Oncology: non-Hodgkin's lymphomas. J Natl Compr Canc Netw. 2010 Mar;8(3):288-334. doi: 10.6004/jnccn.2010.0021. No abstract available.

Reference Type: BACKGROUND

PMID: 20202462 (View on PubMed)

Olsen E, Vonderheid E, Pimpinelli N, Willemze R, Kim Y, Knobler R, Zackheim H, Duvic M, Estrach T, Lamberg S, Wood G, Dummer R, Ranki A, Burg G, Heald P, Pittelkow M, Bernengo MG, Sterry W, Laroche L, Trautinger F, Whittaker S; ISCL/EORTC. Revisions to the staging and classification of mycosis fungoides and Sezary syndrome: a proposal of the International Society for Cutaneous Lymphomas (ISCL) and the cutaneous lymphoma task force of the European Organization of Research and Treatment of Cancer (EORTC). Blood. 2007 Sep 15;110(6):1713-22. doi: 10.1182/blood-2007-03-055749. Epub 2007 May 31.

Reference Type: BACKGROUND

PMID: 17540844 (View on PubMed)

Other Identifiers

SU-08092010-6685

Identifier Type: OTHER

Identifier Source: secondary_id

LYMNHL0078

Identifier Type: OTHER

Identifier Source: secondary_id

IRB-18417

Identifier Type: -

Identifier Source: org_study_id