Monitoring and Early Response Evaluation Using HPV DNA - A Study on Patients With HPV-positive Throat Cancer (MER-HPV) — MER-HPV  

Oropharynx Squamous Cell Carcinoma Clinical Trial

Official title: Analysis of HPV DNA in Plasma in Patients With HPV-positive Oropharyngeal Squamous Cell Carcinoma - a Prospective Study of HPV DNA Levels for Treatment Response and Surveillance

Status Recruiting

Clinical Trial Summary

The goal of this clinical trial is to determine the value of circulating tumour HPV DNA (human papilloma virus DNA found in the blood) at diagnosis, during treatment, and in the follow-up of patients diagnosed and treated for throat cancer caused by HPV. The main question to answer is if the presence of HPV DNA in the blood one month after the treatment is useful in detecting remaining tumour or relapse within two years after treatment. The participants will be asked to provide blood tests: 1. before treatment 2. weekly during the treatment 3. on all scheduled follow-up appointments 4. on all unplanned appointments where a relapse is suspected

Clinical Trial Description

Background: There is a yearly increase in the incidence of oropharyngeal carcinoma (OPC) of appr. 5% in Sweden, predominantly in males. More than 80% of the tumours are HPV (human papilloma virus)-positive. For that reason, measuring circulating tumour HPV DNA (ctHPVDNA) in plasma as a marker of treatment response and as an adjunct in surveillance has become an appealing possibility. In Sweden, patients intended for curative treatment for OPC are usually treated with (chemo)radiotherapy (c)RT. A small proportion is subjected to surgery with or without adjuvant radiation. The gold standard for treatment evaluation after definitive (c)RT is a positron emission tomography-computed tomography (PET-CT) performed 12 weeks after (c)RT completion. The PET-CT result is most important to determine the need for neck dissection in patients with node-positive disease at diagnosis. According to previous publications on the subject of ctHPVDNA, there are the following reasons to further explore the value of ctHPVDNA in routine clinical practice in patients with HPV-positive OPC: 1. ctHPVDNA might limit or almost distinguish the issue with PET-CT results assessed as equivocal treatment evaluation response. A combination of the PET-CT result and ctHPVDNA analysis seems to increase the accuracy. 2. ctHPVDNA has a great potential to detect recurrences before subjective symptoms occur and before it becomes apparent on clinical examination. Early detection of distant metastases in this group of patients might be valuable, since they have the potential for prolonged overall survival after salvage therapy compared to HPV-negative patients. And detection of a small tumour burden might improve survival further. 3. An accurate detection of recurrences with ctHPVDNA in plasma might lead to a discussion of reducing scheduled follow-up appointments and following the patients with plasma samples instead. All patients with biopsy proven OPC referred to the Dept. of Otorhinolaryngology-Head and Neck Surgery (ORL-HNS), Skåne University Hospital and planned for definitive treatment as decided at the Multidisciplinary Tumour Board (MDT) will be invited to participate. Only patients with an HPV-positive tumour are eligible for inclusion. Sample size calculated for the primary end-point: A sensitivity of 65% for detectable ctHPVDNA at one month was decided to be of clinical value for predicting residual or recurrent tumour within two years after treatment completion. 15% of the patients were estimated not to reach complete remission after primary (c)RT or suffer from recurrence during a two-year follow-up period. Accordingly, a sensitivity of at least 65% requires a sample size of 150 patients with a power of 80%. Clopper-Pearson was used to calculate binomial CI of 95%. The expectation is that 2/3 of the patients will be male, according to the epidemiology of OPC in Sweden. Procedure and ctHPVDNA samples during treatment: Patients will receive oral and written information of the study at their first visit at the Dept. of Oncology/Dept. of ORL. Informed consent will be collected at the Dept. of Oncology. The patients will be followed for five years. The study will be closed when the last included patient has been followed for three years after treatment. Plasma samples for ctHPVDNA analysis will be collected before (c)RT start or before surgery. Weekly samples, i.e., seven, are planned during the course of radiotherapy (RT). In surgically treated patients, two samples will be collected. The first at postoperative day 1 and the second on postoperative day 3. If the patient is recommended adjuvant (c)RT weekly samples will be collected as described above. Treatment evaluation: For treatment evaluation and surveillance, plasma ctHPVDNA will be analysed one month after treatment completion and then every three months during the first two years and every six months year two-five after treatment i.e, at the same time as the scheduled follow-up appointments according to the national guidelines. For treatment evaluation at three months after (C)RT, the levels of ctHPVDNA will be taken into consideration as additive information to PET CT for the evaluation of treatment response. If the PET-CT is assessed as NI-RADS 1-2 but the ctHPVDNA level is increasing compared with the level at the end of treatment, a new test will be performed two weeks later to decide whether additional work-up is recommended. Patients with a complete PET CT response (i.e., NI-RADS 1-2) and non-detectable levels of ctHPVDNA will proceed directly to the follow-up regimen. Additional work-up e.g., timing of repeat imaging or other further examinations will be at the discretion of the MDT. For treatment evaluation at three months after primary surgery increasing levels of ctHPVDNA will prompt a confirming test two weeks later to decide whether work-up is indicated. If the patient has decreasing levels of ctHPVDNA the participant will proceed to the follow-up regimen. During follow-up (i.e., from six months and onwards), a positive ctHPVDNA test will be confirmed with a new test two weeks later. If a confirmation of detectable ctHPVDNA levels is achieved, a recurrence work-up will be initiated, including PET CT and further examinations at the discretion of the MDT and scheduled accordingly. Baseline and follow-up data: Baseline data includes age, sex, smoking status, any previous head and neck cancer (HNC), date of diagnosis, primary tumour subsite, TNM classification/stage, p16-status, HPV subtype in primary tumour, levels of ctHPVDNA before treatment. Follow-up data includes received treatment, clinical response three months after treatment, clinical status at the scheduled clinical reviews as well as additional reviews for clinical suspicion of recurrence, PET-CT response at 12 weeks after treatment according to NI-RADS, results of any additional imaging related to HNC, ctHPVDNA i plasma, reasons for aborting treatment and or terminate scheduled reviews, any recurrence, date of death, cause of death, alive with or without disease at five years of follow-up or when the study is closed. Recurrence: If the patient is diagnosed with a residual tumour or recurrence planned for curative intent the plasma sample scheme for ctHPVDNA will be recommenced. If palliative treatment is started after a recurrence no further plasma samples will be collected. A recurrence is diagnosed when a positive cytology or biopsy confirms cancer or if progressive disease is verified on imaging. The date when the cytology or biopsy was performed will serve as the date of recurrence. The first suspicion of a radiology defined recurrence will serve as the date of recurrence if the patient is deemed unfit for confirmation with cytology or biopsy. Method for HPV-DNA analysis: HPV-DNA type identification and quantification from the primary tumour and ctHPV-DNA-quantification in plasma, from each patient, are performed with Luminex and ddPCR, respectively. Luminex is performed at the Dept. of Microbiology, and digital droplet polymerase chain reaction (ddPCR) at the Center for Molecular Diagnostics (CMD), Lund. Primary tumour: Tumour sample, in formalin, is sent to Dept. of Microbiology, Lund. Then sections from formalin fixed paraffin-embedded (FFPE) tumour-tissue are delivered to Dept. of Microbiology. DNA from formalin fixed paraffin-embedded (FFPE) tissue will be extracted according to established standard methods at Dept. of Microbiology. HPV type will be determined by PCR followed by Luminex-based genotyping. If the tumour is HPV-positive, quantitative viral load (number of HPV copies per human cell) will be determined by ddPCR containing primers and probes specific for the HPV type demonstrated in the tumour. Plasma: Blood sample 8.5mL, is collected in vacutainer tube (BD ACD-A tube) and sent to Dept. of Microbiology, Lund. Plasma is separated by centrifugation at 1700 xRPM at Dept. of Microbiology. Then ctDNA is extracted from the plasma automatically by a QIAsymphony-robot using the DSP Circulating DNA Kit (Qiagen) (3 mL input 60 uL output). HPV type specific ddPCR, with primers and probes specific for the HPV type demonstrated in the tumour, will be performed to determine viral load (number of HPV copies per mL plasma). Data monitoring: The study is partly exploratory and partly performed as an evaluation of ctHPVDNA as a way of monitoring disease status. No adverse effects are expected. There is no monitoring committee or stopping guidelines. An interim analysis will be performed after the inclusion of 50 patients to secure the inclusion pace and evaluate unexpected problems. Internal validation will be performed. ;

Related Conditions & MeSH terms

• Carcinoma
• Carcinoma, Squamous Cell
• Oropharynx Squamous Cell Carcinoma

• NCT number: NCT05649865
• Study type: Observational [Patient Registry]
• Source: Region Skane
• Contact: Johanna Sjövall, MD, PhD
• Phone: +4646172164
• Email: johanna.sjovall@med.lu.se
• Status: Recruiting
• Start date: May 15, 2023
• Completion date: May 2028