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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05541016
Other study ID # GMROR2271
Secondary ID NCI-2022-0693222
Status Recruiting
Phase Phase 2
First received
Last updated
Start date February 21, 2023
Est. completion date August 1, 2029

Study information

Verified date January 2024
Source Mayo Clinic
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This phase II trial examines the use of blood-based biomarkers is to help inform decision making for treatment and radiation therapy for patients with human papillomavirus (HPV) positive oropharyngeal squamous cell cancers. The standard treatments for head and neck cancers are radiation therapy with chemotherapy or surgery potentially followed by radiation therapy with or without chemotherapy. Radiation therapy uses high energy rays to kill tumor cells and shrink tumors. Giving chemotherapy along with radiation may kill more tumor cells. However, the cancer can recur or can spread to other parts of the body and all treatments can be associated with side effects. The purpose of this study is to evaluate a blood-based biomarker, using the NavDx testing device, for head and neck cancers in order to see if it can help improve selection of the intensity of treatment in order to best balance the side effects of treatment with the goal of decreasing cancer recurrence. This test could aid in early detection of recurrence and salvage therapy.


Description:

PRIMARY OBJECTIVES: I. To prospectively incorporate circulating tumor human papillomavirus deoxyribonucleic acid (ctHPVDNA) in combination with clinical and pathologic factors to appropriately select patients for treatment intensity. II. To demonstrate patients traditionally offered adjuvant radiation therapy (RT) but at low risk of treatment failure based on clinical pathologic and post op ctHPVDNA risk factors have an acceptable 1-year progression free survival (PFS) warranting further study. (Favorable Intermediate Risk [GROUP 1]) III. To demonstrate based on clinical, pathologic, and ctHPVDNA risk factors a select population receiving diffusing alpha-emitter radiation therapy (DART) (+ multiple segment radiation therapy [MSRT] where applicable) is associated with acceptable 2 year PFS. (Unfavorable Intermediate Risk [GROUP 2]) IV. To quantify the rate of recurrence as defined by the 2 year PFS in an identified high risk population using the incorporation of ctHPVDNA. (High Risk [GROUP 3]) V. To prospectively use week 4 ctHPVDNA to guide treatment intensity of 56 versus (vs) 70 Gy with concurrent cisplatin to demonstrate 56 Gy with sufficient ctHPVDNA clearance results in an acceptable 2 year PFS. (Chemoradiation Cohort [GROUP 4]) SECONDARY OBJECTIVES: I. To compare PFS by treatment arm including at landmark timepoints II. To assess the disease-free survival (DFS) in patients that are disease-free post-treatment. III. To compare overall survival (OS) by treatment arm including at landmark timepoints. IV. To compare patient reported outcomes (PROS) by treatment arm and modality. V. To evaluate treatment toxicity by Common Terminology Criteria for Adverse Events (CTCAE) criteria as rated by providers across treatment arms. VI. To define patterns of recurrence by treatment arm. VII. To describe salvage therapy by treatment arm, including the rate, type, and success of salvage treatment. VIII. To compare functional outcomes by treatment arm based on modified barium swallow study (MBSS) and Functional Oral Intake Scale (FOIS) by treatment arm. IX. To return to work parameters by treatment arm as assess by the Work Productivity and Activity Impairment Questionnaire (WPAI). X. To quantify the costs of return visits for surveillance. XI. To assess end of treatment ctHPVDNA detectability and its association with PFS by comparing patients with detectable versus undetectable end of treatment ctHPVDNA within treatment arms. XII. To compare outcomes by institution. XIII. To evaluate rates of post operative bleeding, tracheostomy, and readmission with 6 weeks of resection. XIV. To compare methods of surveillance in diagnosis of recurrence including clinical evaluation, ctHPVDNA testing, and imaging. XV. To investigate the impact of tobacco and smoking history on recurrence, PFS, and OS. XVI. To perform a matched analysis of patients by clinical and pathologic risk factors to MC1273, MC1675, and MC Mucosal Sparing (NCT02736786). CORRELATIVE RESEARCH OBJECTIVES: I. Will investigate post-op Day 1 or 2 ctHPVDNA detectability as a surrogate for detectability for later post-op timepoints including risk of recurrence rates. II. Will analyze salivary samples pre-treatment, post-op, and at the time of recurrence to determine whether salivary ctHPVDNA may further inform recurrence risk and surveillance in HPV(+) oropharyngeal squamous cell carcinoma (OPSCC). III. Will characterize post-operative drain fluid and compare rates of detectability to blood and saliva in order with the aim to determine whether the regional drain represents a separate regional compartment for analysis. IV. Will prospectively quantify pretreatment imaging for number of involved nodes, radiographic extranodal extension (rENE) as it relates to pathologic findings and risk of recurrence. V. Will analyze within category of low intermediate, high intermediate, and high-risk patients the percentage of tumor infiltrating lymphocytes (TILs) and association with recurrence as well as differences across treatment groups. VI. Will assess whether HPV is integrated vs episomal for each patient and the relationship of ctHPVDNA detectability and outcomes. VII. Will investigate molecular markers on formalin-fixed paraffin-embedded (FFPE) from primary surgical specimens. OUTLINE: Patients are assigned to 1 of 4 groups. GROUP I: Patients undergo observation following standard of care surgery. Patients undergo MBSS at pre-operative (pre-op), 2 weeks post-operative (post-op), and 3 months follow-up. Patients also undergo computed tomography (CT), positron emission tomography (PET)/CT, or magnetic resonance imaging (MRI) at baseline and 3 months and 1, 2 and 5 years post treatment. Patients undergo blood specimen collection for NavDx testing at pre-op, 1-2 days post-op, 2 weeks post-op, and 3, 6, 9, 12, 15, 18, 21, 24, 30, 36, 48, and 60 months. GROUP II: Patients undergo DART with/without mucosal sparing twice daily (BID) on days 1-12 Monday-Friday for a total of 20 fractions within 8 weeks of standard of care surgery. Patients receive concurrent docetaxel intravenously (IV) over 1 hour on days 1 and 8 (Mondays preferred). Treatment continues in the absence of disease progression or unacceptable toxicity. Patients undergo MBSS at pre-op, 2 weeks post-op, and 3 and 12 months post-treatment. Patients also undergo CT, PET/CT, or MRI at baseline and 3 months and 1, 2 and 5 years post treatment. Patients undergo blood specimen collection for NavDx testing at pre-op, 1-2 days post-op, 2 weeks post-op, end of RT, and 3, 6, 9, 12, 15, 18, 21, 24, 30, 36, 48, and 60 months. GROUP III: Patients undergo intensity-modulated radiation therapy (IMRT) or intensity-modulated proton therapy (IMPT) once daily (QD) on days 1-40 Monday-Friday for a total of 30 fractions within 6 weeks of standard of care surgery. Depending on risk status, patients may also receive concurrent cisplatin IV over 1-2 hours once a week (QW) on Monday, Tuesday, or Wednesday or once every 3 weeks for 6 doses (or accepted alternate regimen when drug shortage applies per physician discretion). Treatment continues in the absence of disease progression or unacceptable toxicity. Patients undergo MBSS at pre-op, post-op, and 3 and 12 months post-treatment. Patients also undergo CT, PET/CT, or MRI at baseline and 3 months and 1, 2 and 5 years post treatment. Patients undergo blood specimen collection for NavDx testing at pre-op, 1-2 days post-op, 2 weeks post-op, end of RT, and 3, 6, 9, 12, 15, 18, 21, 24, 30, 36, 48, and 60 months. GROUP IV: Patients undergo IMRT or IMPT therapy QD on days 1-40 Monday-Friday for 28 or 35 fractions based on biomarker response along with concurrent cisplatin IV over 1-2 hours QW on Monday, Tuesday, or Wednesday or once every 3 weeks for 6 doses (or accepted alternate regimen when drug shortage applies per physician discretion). Treatment continues in the absence of disease progression or unacceptable toxicity. Patients undergo MBSS prior to RT and at 3 and 12 months post RT. Patients undergo CT, PET/CT, or MRI at baseline and 3 months and 1, 2 and 5 years post treatment. Patients undergo blood specimen collection for NavDx testing pre-RT, 4 weeks into RT, anticipated fraction 20, end of RT, 3, 6, 9, 12, 15, 18, 21, 24, 30, 36, 48, and 60 months. After completion of study treatment, patients are followed up at 4-6 weeks post treatment, every 3 months post-treatment for 2 years, every 6 months for year 3, and annually for years 4 and 5.


Recruitment information / eligibility

Status Recruiting
Enrollment 320
Est. completion date August 1, 2029
Est. primary completion date August 1, 2028
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - PRE-REGISTRATION (optional): Provide written informed consent - Age >= 18 years - Histological confirmation of p16+ OPSCC or HPV(+) OPSCC - Plan for gross total surgical resection via trans oral surgery with curative intent and at least unilateral neck dissection OR chemoradiotherapy with cisplatin. Note: The patient must be cisplatin eligible even if an alternate is used due to drug shortage - Absence of distant metastases on standard diagnostic work-up =< 16 weeks prior to registration. (Chest CT or PET/CT) - Eastern Cooperative Oncology Group (ECOG) performance status (PS) =< 1 - Negative pregnancy test done =< 7 days prior to registration, for women of childbearing potential only - Ability to complete questionnaire(s) by themselves or with assistance - Provide written informed consent - Willing to return to enrolling institution for follow-up (during the active monitoring phase of the study) - Willing to provide blood samples for correlative research purposes, including anonymous shipment of samples to for NavDx testing Exclusion Criteria: - Any of the following: - Pregnant women - Nursing women - Men or women of childbearing potential who are unwilling to employ adequate contraception - Co-morbid systemic illnesses or other severe concurrent disease which, in the judgment of the investigator, would make the patient inappropriate for entry into this study or interfere significantly with the proper assessment of safety and toxicity of the prescribed regimens - Immunocompromised patients and patients known to be human immunodeficiency virus (HIV)+ - Uncontrolled intercurrent illness including, but not limited to, ongoing or active infection, symptomatic congestive heart failure, unstable angina pectoris, cardiac arrhythmia, or psychiatric illness/social situations that would limit compliance with study requirements - Receiving any other investigational agent which would be considered as a treatment for the primary neoplasm - Other active malignancy =< 5 years prior to registration. EXCEPTIONS: Nonmelanotic skin cancer or carcinoma-in-situ of the cervix, or prostate or localized endometrioid endometrial cancer. NOTE: If there is a history or prior malignancy, they must not be receiving other specific treatment for their cancer - Prior history of radiation therapy to the affected site - Prior systemic chemotherapy in the last 5 years - Contraindication to radiation therapy as determined by the treating team - History of allergic reaction to docetaxel - Receiving any medications or substances which in the opinion of the investigators would interfere with treatment. Examples could include strong inhibitors of cytochrome P450 3A4 (CYP3A4) at oncologist discretion - Severe pre-existing ototoxicity or neuropathy that would, in the opinion of the investigator, preclude the use of cisplatin chemotherapy - cT4 primary tumor - NOTE: Patients with no intermediate risk factors after surgery, low risk patients, as defined by T1, T2, tumors with lymph node less than 3cm, no intermediate or high risk factors such as lymphatic invasion (LVSI), ENE, perineural invasion (PNI), positive margin, will go off study and be observed per current clinical standard of care - Patients found to have HPV non 16 type, or HPV detectability in blood less than <20tumor tissue modified viral (TTMV) will not be candidates for de-escalation in Groups 1 and 2 and will be treated in Group 3. They will receive 60 Gy +/- cisplatin or acceptable alternate regimen when drug shortages of cisplatin exist. If treated primarily with chemoradiation (chemoRT) (Group 4), these patients will not be candidates for de-escalation if TTMV is < 50 TTMV but can remain on study receiving 70 Gy with all corresponding correlative studies applying - Patients with unknown (radiologic/clinically occult) primaries but p16+ or HPV+ neck adenopathy can be registered to go on study. Should after primary resection, no primary tumor be identified, the patient will go off study and be treated per institutional standard of care - All treatment primarily, including surgery and chemotherapy will be performed at the enrolling institution

Study Design


Related Conditions & MeSH terms

  • Carcinoma
  • Clinical Stage I HPV-Mediated (p16-Positive) Oropharyngeal Carcinoma AJCC v8
  • Clinical Stage II HPV-Mediated (p16-Positive) Oropharyngeal Carcinoma AJCC v8
  • Clinical Stage III HPV-Mediated (p16-Positive) Oropharyngeal Carcinoma AJCC v8
  • Oropharyngeal Neoplasms

Intervention

Procedure:
Biospecimen Collection
Undergo blood specimen collection for NavDx testing
Drug:
Cisplatin
Given IV
Procedure:
Computed Tomography
Undergo CT scan
Radiation:
Diffusing Alpha-emitter Radiation Therapy
Undergo DART
Drug:
Docetaxel
Given IV
Procedure:
Intensity-Modulated Proton Therapy
Undergo IMPT
Radiation:
Intensity-Modulated Radiation Therapy
Undergo IMRT
Procedure:
Magnetic Resonance Imaging
Undergo MRI
Modified Barium Swallow Study
Undergo MBSS
Other:
Observation
Undergo observation
Procedure:
Positron Emission Tomography
Undergo PET scan
Other:
Quality-of-Life Assessment
Ancillary studies
Questionnaire
Ancillary studies

Locations

Country Name City State
United States Mayo Clinic in Florida Jacksonville Florida
United States Mayo Clinic in Rochester Rochester Minnesota
United States Mayo Clinic in Arizona Scottsdale Arizona

Sponsors (1)

Lead Sponsor Collaborator
Mayo Clinic

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Other ctHPVDNA detectability Due to the limited sample size, these analyses will be hypothesis generating and descriptive in nature. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. At post-operative day 1 or 2
Other Salivary ctHPVDNA analysis for recurrence risk and surveillance Salivary samples will be analyzed pre-treatment, post-op, and at the time of recurrence to determine whether salivary ctHPVDNA may further inform recurrence risk and surveillance in HPV(+) oropharyngeal squamous cell carcinoma. Due to the limited sample size, these analyses will be hypothesis generating and descriptive in nature. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Other Characterization of post-operative drain fluid We will characterize post-operative drain fluid and compare rates of detectability to blood and saliva in order with the aim to determine whether the regional drain represents a separate regional compartment for analysis. Due to the limited sample size, these analyses will be hypothesis generating and descriptive in nature. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Other Quantification of pre-treatment imaging We will prospectively quantify pretreatment imaging for number of involved nodes, radiographic extranodal extension as it relates to pathologic findings and risk of recurrence. Due to the limited sample size, these analyses will be hypothesis generating and descriptive in nature. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Other Percentage of tumor infiltrating lymphocytes (TILs) We will analyze within category of low intermediate, high intermediate, and high-risk patients the percentage of TILs and association with recurrence as well as differences across treatment groups. Due to the limited sample size, these analyses will be hypothesis generating and descriptive in nature. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Other Assessment of integrated vs episomal HPV Comparison of methods of surveillance as defined by the date of diagnosis of recurrence by ctHPVDNA testing as compared to clinical examination and imaging. Sensitivity, specificity, negative predictive value, and positive predictive value of each will be reported. Measure whether HPV is integrated vs episomal for each patient and the relationship of ctHPVDNA detectability and outcomes. These analyses will be hypothesis generating and descriptive in nature. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Other Assess Molecular Markers Using FFPE We will investigate molecular markers on formalin-fixed paraffin-embedded (FFPE) from primary surgical specimens. Due to the limited sample size, these analyses will be hypothesis generating and descriptive in nature. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Primary Progression-free survival (PFS) Progression-free survival (PFS), the time from treatment initiation until disease progression or worsening. PFS at specific timepoints will be estimated using Kaplan-Meier methodology. From registration to the first of either disease progression/recurrence or death, assessed up to 5 years
Secondary Progression-free survival (PFS) follow-up Progression-free survival (PFS) is defined as the time from treatment initiation until disease progression or worsening. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response versus (vs.) no response), we'll use logistic regression models. At years 1, 2, 3, 4, and 5
Secondary Disease-free survival (DFS) Disease-free survival (DFS) is the measure of time after treatment during which no sign of cancer is found. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. From time of surgery and also from end of all treatment across all the groups, assessed up to 5 years
Secondary Overall survival (OS) Overall survival (OS) is defined as the duration of patient survival from the time of treatment initiation. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. At years 1, 2, 3, 4, and 5
Secondary Patient reported outcomes (PROs) Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Incidence of adverse events Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Patterns of recurrence and rate of salvage therapy for Low Intermediate Risk (GROUP 1) and multiple segment radiation therapy (MSRT) + de-escalated adjuvant radiation therapy (DART) Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Functional outcomes - modified barium swallow study (MBSS) Measured by modified barium swallow (MBSS). Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Functional outcomes - PROs Measure by patient reported outcomes (PROs). Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Proton vs photon treatment toxicity - PROs Assessed by PROs. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Proton vs photon treatment toxicity - MBSS Assessed by MBSS. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Proton vs photon treatment toxicity - dosimetric differences Assessed by dosimetric differences including to organs at risk and the primary tumor bed in the case of mucosal sparing. Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Costs of return visits for surveillance Presented descriptively and ANOVA models with tukey's adjustment for pairwise comparison will be utilized to test difference in arms. Up to 5 years
Secondary Assessment of surveillance circulating human papillomavirus deoxyribonucleic acid (ctHPVDNA) preceding clinical or radiologic detection of recurrence Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Matched analysis of patients by clinical and pathologic risk factor to MC1273 and MC1675 de-escalation arms to overall GROUP 1 and GROUP 2 cohorts including 2-year PFS Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Evaluation of return to work Will be assessed by by the Work Productivity and Activity Impairment Questionnaire (WPAI). Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Evaluation of end of treatment treatment circulating human papillomavirus deoxyribonucleic acid (ctHPVDNA) detectability as a marker of risk of progression Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Functional outcomes of DART alone vs. DART + MSRT Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
Secondary Feasibility of DART regimen outside of Mayo Clinic Descriptive statistics will be summarized and the exploratory data will be correlated with clinical endpoints (PFS, time-to-progression, etc.). For time-to-event data, the Kaplan-Meier method will be used. For categorical data, we'll use the Fisher's exact test. For biomarker data used to predict binary outcomes (i.e. response vs. no response), we'll use logistic regression models. Up to 5 years
See also
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Withdrawn NCT04140513 - Digital PET Scan for the Prediction of Outcomes in Patients With Locally Advanced Oropharyngeal Cancer N/A
Completed NCT04489212 - Study of Mucosal Sparing Adjuvant Radiotherapy After Surgical Exploration in HPV+ Head and Neck Cancer of Unknown Primaries N/A
Terminated NCT03618134 - Stereotactic Body Radiation Therapy and Durvalumab With or Without Tremelimumab Before Surgery in Treating Participants With Human Papillomavirus Positive Oropharyngeal Squamous Cell Caner Phase 1/Phase 2
Suspended NCT04162873 - Celecoxib Through Surgery and Radiation Therapy for the Treatment of Advanced Head and Neck Cancer Phase 2
Recruiting NCT06356272 - Oropharynx (OPX) Biomarker Trial
Recruiting NCT05232851 - A Vaccine (PDS0101) Alone or in Combination With Pembrolizumab for the Treatment of Locally Advanced Human Papillomavirus-Associated Oropharynx Cancer Phase 1/Phase 2
Active, not recruiting NCT04576091 - Testing the Addition of an Anti-cancer Drug, BAY 1895344, With Radiation Therapy to the Usual Pembrolizumab Treatment for Recurrent Head and Neck Cancer Phase 1
Recruiting NCT04900623 - Risk-adapted Therapy in HPV+ Oropharyngeal Cancer Using Circulating Tumor (ct)HPV DNA Profile - The ReACT Study Phase 2
Active, not recruiting NCT04920344 - Swallowing Outcomes and Circulating Tumor DNA in Patients With HPV Related Oropharyngeal Cancer Treated With Transoral Surgery and Reduced Intensity Adjuvant Therapy Phase 2
Terminated NCT04106362 - Radiation Therapy and Cisplatin With or Without Cetuximab in Treating Patients With HPV Positive, KRAS-Variant Stage III-IV Oropharyngeal Squamous Cell Carcinoma Phase 2
Recruiting NCT05136196 - BiCaZO: A Study Combining Two Immunotherapies (Cabozantinib and Nivolumab) to Treat Patients With Advanced Melanoma or Squamous Cell Head and Neck Cancer, an immunoMATCH Pilot Study Phase 2
Recruiting NCT03010150 - Blood Tests and Questionnaires in Studying Adherence to Preventative Swallowing Exercises in Participants With Metastatic Head and Neck Cancer
Recruiting NCT04533750 - Testing the Addition of M3814 (Peposertib) to Radiation Therapy for Patients With Advanced Head and Neck Cancer Who Cannot Take Cisplatin Phase 1
Recruiting NCT03811015 - Testing Immunotherapy Versus Observation in Patients With HPV Throat Cancer Phase 3
Active, not recruiting NCT03258554 - Radiation Therapy With Durvalumab or Cetuximab in Treating Patients With Locoregionally Advanced Head and Neck Cancer Who Cannot Take Cisplatin Phase 2/Phase 3

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