Miracle Mouthwash Plus Hydrocortisone vs Prednisolone Mouth Rinse for Mouth Sores Caused by Everolimus
Status: | Active, not recruiting |
---|---|
Conditions: | Breast Cancer, Dental |
Therapuetic Areas: | Dental / Maxillofacial Surgery, Oncology |
Healthy: | No |
Age Range: | 18 - Any |
Updated: | 10/3/2018 |
Start Date: | September 4, 2014 |
End Date: | September 30, 2019 |
Evaluation of Miracle Mouthwash (MMW) Plus Hydrocortisone and Prednisolone Mouth Rinse as Prophylaxis for Everolimus-Associated Stomatitis
This is a randomized Phase 2 study to evaluate two different steroid-based mouth rinses
(Miracle Mouth Wash plus hydrocortisone versus prednisolone oral rinse) for the prevention or
treatment of everolimus-associated stomatitis (mouth sores) in postmenopausal patients
undergoing treatment with an aromatase inhibitor plus everolimus. An exploratory analysis
will also evaluate patient response to next anti-cancer therapy of physician's choice
following discontinuation of therapy with an aromatase inhibitor plus everolimus.
(Miracle Mouth Wash plus hydrocortisone versus prednisolone oral rinse) for the prevention or
treatment of everolimus-associated stomatitis (mouth sores) in postmenopausal patients
undergoing treatment with an aromatase inhibitor plus everolimus. An exploratory analysis
will also evaluate patient response to next anti-cancer therapy of physician's choice
following discontinuation of therapy with an aromatase inhibitor plus everolimus.
Stomatitis, or inflammation of the mucous membranes lining the mouth and throat, is a common
side affect associated with chemotherapy and radiation therapy. In addition, stomatitis has
been reported in approximately 44% - 64% of patients treated with everolimus (Afinitor PI).
However, mTOR (mammalian target of rapamycin) inhibitor-induced stomatitis (mIAS) is a
different clinical entity, manifesting more frequently as discrete aphthous-like lesions
rather than diffuse inflammation. Oral lesions are typically well demarcated, single or
multiple ovoid-shaped ulcerations, with a grayish-white pseudomembrane.
In the BOLERO-2 trial, 56% of patients with MBC (metastatic breast cancer) treated with
exemestane plus everolimus developed stomatitis, with 37% developing grade 2/3 stomatitis.
These rates are consistent with the rates reported with everolimus therapy in patients with
other types of cancers (Afinitor PI). Although this adverse event is reversible,
approximately one-fourth of the patients treated with everolimus in the BOLERO-2 trial
required dose interruptions or dose reductions, and this may impact the benefit from therapy.
Despite the frequency of stomatitis associated with mTOR inhibitor therapy, strategies to
prevent and/or ameliorate this painful side effect are not well defined or documented. Expert
guidelines on the management of mIAS have been developed, but these guidelines are based on
retrospective observational and/or anecdotal evidence, and prospective data on the efficacy
of mIAS prevention and management strategies are needed.
There is some evidence to suggest steroid therapy may be helpful in the management of mIAS.
Steroid-containing ointments or mouth rises have also been shown to alleviate symptoms in
patients with non-chemotherapy associated apthous oral ulcers. Reports on the effectiveness
of non-steroid mouthwash formulations have been mixed, but agents that induce a topical
anesthetic effect, may help to reduce discomfort and pain.
Thus, the present study has been designed to investigate the effectiveness of two oral rinses
(miracle mouth wash [MMW] plus hydrocortisone, vs prednisolone) to prevent or reduce the
severity of stomatitis in patients with MBC undergoing treatment with an aromatase inhibitor
plus everolimus (AIE).
In addition, because very little is known about the impact of everolimus therapy on response
to later lines of treatment for MBC, and preclinical data suggest mTOR inhibition may
resensitize cells to endocrine therapy, this study will also assess tumor response to next
anti-cancer therapy of physician's choice, including duration of response and sites of
progression.
All patients will receive everolimus 10 mg PO QD (by mouth, every day) plus standard dose AI
(physician choice of Letrozole, Exemestane, or Anastrozole).
Patients will be randomized 1:1 to 12 weeks of treatment with either:
- Arm 1: MMW plus hydrocortisone
- Arm 2: Prednisolone oral solution (15mg/5ml)
Treatment with the oral rinse will start on Day 1 of everolimus therapy, and will be
self-administered. Patients will be instructed to swish and expectorate (cough or spit out)
10ml of the assigned mouth rinse 4 times per day. Patients may also gargle 4 times per day
with the assigned rinse for any symptoms of pharyngitis. Patients will also be instructed to
fill out the Oral Stomatitis Daily Questionnaire (OSDQ) at home every day.
The incidence of stomatitis, as well as other adverse events, dose reductions/interruptions,
and everolimus discontinuation due to toxicity, will be monitored for the first 12 weeks of
treatment. After the end of the initial 12 week randomized portion of the study, patients
will continue to be followed every 2 months (for up to 1 year following discontinuation of
everolimus for progression or intolerable toxicity or progression on subsequent anti-cancer
therapy, whichever occurs first) to determine when AIE treatment is discontinued and reason
for discontinuation (toxicity, progression), sites of disease progression, response to next
anti-cancer therapy of physician's choice (by physician assessment) and duration of response,
and sites of disease progression to next anti-cancer therapy following progression on AIE.
side affect associated with chemotherapy and radiation therapy. In addition, stomatitis has
been reported in approximately 44% - 64% of patients treated with everolimus (Afinitor PI).
However, mTOR (mammalian target of rapamycin) inhibitor-induced stomatitis (mIAS) is a
different clinical entity, manifesting more frequently as discrete aphthous-like lesions
rather than diffuse inflammation. Oral lesions are typically well demarcated, single or
multiple ovoid-shaped ulcerations, with a grayish-white pseudomembrane.
In the BOLERO-2 trial, 56% of patients with MBC (metastatic breast cancer) treated with
exemestane plus everolimus developed stomatitis, with 37% developing grade 2/3 stomatitis.
These rates are consistent with the rates reported with everolimus therapy in patients with
other types of cancers (Afinitor PI). Although this adverse event is reversible,
approximately one-fourth of the patients treated with everolimus in the BOLERO-2 trial
required dose interruptions or dose reductions, and this may impact the benefit from therapy.
Despite the frequency of stomatitis associated with mTOR inhibitor therapy, strategies to
prevent and/or ameliorate this painful side effect are not well defined or documented. Expert
guidelines on the management of mIAS have been developed, but these guidelines are based on
retrospective observational and/or anecdotal evidence, and prospective data on the efficacy
of mIAS prevention and management strategies are needed.
There is some evidence to suggest steroid therapy may be helpful in the management of mIAS.
Steroid-containing ointments or mouth rises have also been shown to alleviate symptoms in
patients with non-chemotherapy associated apthous oral ulcers. Reports on the effectiveness
of non-steroid mouthwash formulations have been mixed, but agents that induce a topical
anesthetic effect, may help to reduce discomfort and pain.
Thus, the present study has been designed to investigate the effectiveness of two oral rinses
(miracle mouth wash [MMW] plus hydrocortisone, vs prednisolone) to prevent or reduce the
severity of stomatitis in patients with MBC undergoing treatment with an aromatase inhibitor
plus everolimus (AIE).
In addition, because very little is known about the impact of everolimus therapy on response
to later lines of treatment for MBC, and preclinical data suggest mTOR inhibition may
resensitize cells to endocrine therapy, this study will also assess tumor response to next
anti-cancer therapy of physician's choice, including duration of response and sites of
progression.
All patients will receive everolimus 10 mg PO QD (by mouth, every day) plus standard dose AI
(physician choice of Letrozole, Exemestane, or Anastrozole).
Patients will be randomized 1:1 to 12 weeks of treatment with either:
- Arm 1: MMW plus hydrocortisone
- Arm 2: Prednisolone oral solution (15mg/5ml)
Treatment with the oral rinse will start on Day 1 of everolimus therapy, and will be
self-administered. Patients will be instructed to swish and expectorate (cough or spit out)
10ml of the assigned mouth rinse 4 times per day. Patients may also gargle 4 times per day
with the assigned rinse for any symptoms of pharyngitis. Patients will also be instructed to
fill out the Oral Stomatitis Daily Questionnaire (OSDQ) at home every day.
The incidence of stomatitis, as well as other adverse events, dose reductions/interruptions,
and everolimus discontinuation due to toxicity, will be monitored for the first 12 weeks of
treatment. After the end of the initial 12 week randomized portion of the study, patients
will continue to be followed every 2 months (for up to 1 year following discontinuation of
everolimus for progression or intolerable toxicity or progression on subsequent anti-cancer
therapy, whichever occurs first) to determine when AIE treatment is discontinued and reason
for discontinuation (toxicity, progression), sites of disease progression, response to next
anti-cancer therapy of physician's choice (by physician assessment) and duration of response,
and sites of disease progression to next anti-cancer therapy following progression on AIE.
Inclusion Criteria:
1. Age ≥ 18 years;
2. ECOG (Eastern Cooperative Group) Performance status ≤ 2;
3. Histologic or cytologic confirmation of stage IV hormone receptor-positive breast
cancer;
4. Postmenopausal status, defined either by:
1. Age ≥ 55 years and ≥ 1 year of amenorrhea
2. Age < 55 years and ≥ 1 year of amenorrhea, with an estradiol assay <20pg/ml
3. Surgical menopause with bilateral oophorectomy Note: Ovarian radiation or
treatment with a luteinizing hormone-releasing hormone (LHRH) agonist (goserelin
acetate or leuprolide acetate) is not permitted for induction of ovarian
suppression;
5. Planned treatment with an aromatase inhibitor (letrozole, exemestane, or anastrozole)
plus everolimus; Note: Prior treatment with an aromatase inhibitor, either for
early-stage or metastatic breast cancer, is allowed.
6. Adequate bone marrow function as shown by: ANC (absolute neutrophil count) ≥1.5 x
109/L, Platelets ≥100 x 109/L, Hb >9 g/dL;
7. Adequate liver function as shown by:
1. Total serum bilirubin ≤2.0 mg/dL,
2. ALT (Alanine aminotransferase) and AST (Aspartate aminotransferase) ≤2.5x ULN
(upper limit of normal) (≤5x ULN in patients with liver metastases),
3. INR (International Normalized Ratio) ≤2;
8. Adequate renal function: serum creatinine ≤1.5x ULN;
9. Fasting serum cholesterol ≤300 mg/dL OR ≤7.75 mmol/L AND fasting triglycerides ≤2.5x
ULN.
Note: In case one or both of these thresholds are exceeded, the patient can only be
included after initiation of appropriate lipid lowering medication;
10. Willingness to complete a daily stomatitis symptom questionnaire;
11. Signed informed consent obtained prior to any screening procedures.
Exclusion Criteria:
1. Known intolerance or hypersensitivity to everolimus or other rapamycin analogs (e.g.
sirolimus, temsirolimus);
2. Known impairment of gastrointestinal (GI) function or GI disease that may
significantly alter the absorption of oral everolimus;
3. Uncontrolled diabetes mellitus as defined by HbA1c (hemoglobin A1c) >8% despite
adequate therapy. Patients with a known history of impaired fasting glucose or
diabetes mellitus (DM) may be included, however blood glucose and antidiabetic
treatment must be monitored closely throughout the trial and adjusted as necessary;
4. Patient has any severe and/or uncontrolled medical conditions such as:
1. unstable angina pectoris, symptomatic congestive heart failure, myocardial
infarction ≤6 months prior to start of Everolimus, serious uncontrolled cardiac
arrhythmia, or any other clinically significant cardiac disease
2. Symptomatic congestive heart failure of New York Heart Association Class III or
IV
3. active (acute or chronic) or uncontrolled severe infection, liver disease such as
cirrhosis, decompensated liver disease, and chronic hepatitis (i.e. quantifiable
HBV-DNA (Hepatitis B Virus DNA) and/or positive HbsAg, quantifiable HCV-RNA
[Hepatitis C Virus RNA]),
4. known severely impaired lung function (spirometry and DLCO [Diffusing capacity of
the Lung for Carbon Monoxide] 50% or less of normal and O2 saturation 88% or less
at rest on room air),
5. active, bleeding diathesis;
5. Patient requires chronic treatment with corticosteroids (including inhaled
corticosteroids) or other immunosuppressive agents. Topical corticosteroids are
allowed;
6. Known history of HIV seropositivity;
7. Patient received live attenuated vaccines within 1 week of start of everolimus and
during the study. Patient should also avoid close contact with others who have
received live attenuated vaccines. Examples of live attenuated vaccines include
intranasal influenza, measles, mumps, rubella, oral polio, BCG (Bacillus
Calmette-Guérin), yellow fever, varicella and TY21a typhoid vaccines;
8. Patient has a history of another primary malignancy, with the exceptions of:
non-melanoma skin cancer, and carcinoma in situ of the cervix, uteri, or breast from
which the patient has been disease free for ≥3 years;
9. Patient has a history of non-compliance to medical regimens or who are considered
potentially unreliable or will not be able to complete the entire study;
10. Patient is currently part of or has participated in any clinical investigation with an
investigational drug within 1 month prior to dosing.
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