Lorna Grove

Final long-term results of a phase I/II study of dose-escalated intensity-modulated radiotherapy for locally advanced laryngo-hypopharyngeal cancers

OBJECTIVES We previously described dose-escalated intensity-modulated radiotherapy (IMRT) in squamous cell cancer of the larynx/hypopharynx (SCCL/H) to offer improved locoregional control with a low incidence of toxicity at 2 years. We now present outcome and safety data at 5 years. MATERIALS AND METHODS A sequential cohort Phase I/II trial design was used. Patients with SCCL/H received IMRT at two dose levels (DL): DL1, 63 Gy/28 fractions to planning target volume 1 (PTV1) and 51.8 Gy/28 Fx to PTV2; DL2, 67.2 Gy/28 Fx and 56 Gy/28 Fx to PTV1 and PTV2, respectively. Patients received induction cisplatin/5-fluorouracil and concomitant cisplatin. RESULTS Between 09/2002 and 01/2008, 60 patients (29 DL1, 31 DL2) with stage III (41% DL1, 52% DL2) and stage IV (52% DL1, 48% DL2) disease were recruited. Median (range) follow-up for DL1 was 5.7 (1.0-10.2) years and for DL2 was 6.0 (0.3-8.4) years. Five-year local control rates (95% confidence interval) for DL1 and DL2, respectively, were 68% (50.6-85.4%) and 75% (58.9-91.1%), locoregional progression-free survival rates were 54% (35.6-72.4%) and 62.6% (44.8-80.4%), and overall survival was 61.9% (44.1-79.7) and 67.6 (51.1-84.1%). Five-year laryngeal preservation rates were 66.7% (37.4-87.9%) and 71.4% (44.4-85.8%), respectively. Cumulative toxicities reported were: one patient in DL1 and 2 in DL2 developed benign pharyngeal strictures. No other G3/4 toxicities were reported. CONCLUSIONS Dose-escalated IMRT at DL2 achieves higher 5-year local control, larynx preservation and survival rates with acceptable late toxicity. Recruitment into a Cancer Research UK Phase III study (ART-DECO), with DL2 as the experimental arm, is ongoing.

A randomised controlled trial of Caphosol mouthwash in management of radiation-induced mucositis in head and neck cancer

PURPOSE This phase III, non-blinded, parallel-group, randomised controlled study evaluated the efficacy of Caphosol mouthwash in the management of radiation-induced oral mucositis (OM) in patients with head and neck cancer (HNC) undergoing radical (chemo)radiotherapy. PATIENTS AND METHODS Eligible patients were randomised at 1:1 to Caphosol plus standard oral care (intervention) or standard oral care alone (control), stratified by radiotherapy technique and use of concomitant chemotherapy. Patients in the intervention arm used Caphosol for 7weeks: 6weeks during and 1-week post-radiotherapy. The primary endpoint was the incidence of severe OM (CTCAE ⩾grade 3) during and up to week 8 post-radiotherapy. Secondary endpoints include pharyngeal mucositis, dysphagia, pain and quality of life. RESULTS The intervention (n=108) and control (n=107) arms were well balanced in terms of patient demographics and treatment characteristics. Following exclusion of patients with missing data, 210 patients were available for analysis. The incidence of severe OM did not differ between the intervention and control arms (64.1% versus 65.4%, p=0.839). Similarly, no significant benefit was observed for other secondary endpoints. Overall, compliance with the recommended frequency of Caphosol was low. CONCLUSION Caphosol did not reduce the incidence or duration of severe OM during and after radiotherapy in HNC.

A practical guide to the handling and administration of talimogene laherparepvec in Europe.

Talimogene laherparepvec is a herpes simplex virus-1-based intralesional oncolytic immunotherapy and is the first oncolytic virus to be approved in Europe. It is indicated for the treatment of adults with unresectable melanoma that is regionally or distantly metastatic (stage IIIB, IIIC, and IVM1a) with no bone, brain, lung, or other visceral disease. Talimogene laherparepvec is a genetically modified viral therapy, and its handling needs special attention due to its deep freeze, cold-chain requirements, its potential for viral shedding, and its administration by direct intralesional injection. This review provides a practical overview of handling, storage, and administration procedures for this agent in Europe. Talimogene laherparepvec vials should be transported/stored frozen at a temperature of −90°C to −70°C, and once thawed, vials must not be refrozen. Universal precautions for preparation, administration, and handling should be followed to avoid accidental exposure. Health care providers should wear personal protective equipment, and materials that come into contact with talimogene laherparepvec should be disposed of in accordance with local institutional procedures. Individuals who are immunocompromised or pregnant should not prepare or administer this agent. Talimogene laherparepvec is administered by intralesional injection into cutaneous, subcutaneous, and/or nodal lesions that are visible, palpable, or detectable by ultrasound. Treatment should be continued for ≥6 months. As with other immunotherapies, patients may experience an increase in the size of existing lesion(s) or the appearance of new lesions (ie, progression) prior to achieving a response (“pseudo-progression”). As several health care professionals (eg, physicians [dermatologists, surgeons, oncologists, radiologists], pharmacists, nurses) are involved in different stages of the process, there is a need for good interdisciplinary collaboration when using talimogene laherparepvec. Although there are specific requirements for this agent’s storage, handling, administration, and disposal, these can be effectively managed in a real-world clinical setting through the implementation of training programs and straightforward standard operating procedures.

Blood transfusion during radical chemo-radiotherapy does not reduce tumour hypoxia in squamous cell cancer of the head and neck

Background:Patients with head and neck squamous cell carcinoma (HNSCC) undergoing radical chemo-radiation (CRT) frequently receive transfusion with packed red cells (PRCT) during radiotherapy on the basis that PRCT increases tumour oxygenation and overcomes hypoxia-induced radio-resistance. This is likely to be a significant oversimplification given the fact that tumour hypoxia is the result of several intrinsic and extrinsic factors, including many that are not directly related to serum haemoglobin (Hb). Therefore, we have studied the effect of PRCT on tumour oxygenation in a prospective cohort of patients who developed low Hb during radical CRT for HNSCC.Methods:This was a prospective study of 20 patients with HNSCC receiving radical CRT undergoing PRCT for Hb<11.5 g dl−1. Patients underwent pretransfusion and posttransfusion intrinsic susceptibility-weighted (SWI) MRI and dynamic contrast-enhanced (DCE) MRI. Blood samples were obtained at the time of MRI scanning and two further time points for measuring Hb and a panel of serum cytokine markers of tumour hypoxia. 3D T2* and Ktrans maps were calculated from the MRI data for primary tumours and cervical lymph node metastases.Results:PRCT produced no change (11 patients) or reduced (1 patient) T2* (tumour oxygenation) in 12 of the 16 (75%) evaluable primary tumours. Three of the four patients with improved tumour oxygenation progressed or had partial response following treatment completion. There were variable changes in Ktrans (tumour perfusion or vessel permeability) following PRCT that were of small magnitude for most tumours. Pre- and Post-PRCT levels of measured cytokines were not significantly different.Conclusions:This study suggests that PRCT during radical CRT for HNSCC does not improve tumour oxygenation. Therefore, oncologists should consider changing practice according to NICE and American Association of Blood Banks guidelines on PRCT for anaemia.

Predicting response to radical (chemo)radiotherapy with circulating HPV DNA in locally advanced head and neck squamous carcinoma

Background:Following chemo-radiotherapy (CCRT) for human papilloma virus positive (HPV+) locally advanced head and neck cancer, patients frequently undergo unnecessary neck dissection (ND) and/or repeated biopsies for abnormal PET-CT, which causes significant morbidity. We assessed the role of circulating HPV DNA in identifying ‘true’ residual disease.Methods:We prospectively recruited test (n=55) and validation (n=33) cohorts. HPV status was confirmed by E7 RT-PCR. We developed a novel amplicon-based next generation sequencing assay (HPV16-detect) to detect circulating HPV DNA. Circulating HPV DNA levels post-CCRT were correlated to disease response (PET-CT).Results:In pre-CCRT plasma, HPV-detect demonstrated 100% sensitivity and 93% specificity, and 90% sensitivity and 100% specificity for the test (27 HPV+) and validation (20 HPV+) cohorts, respectively. Thirty-six out of 37 patients (test and validation cohort) with complete samples-set had negative HPV-detect at end of treatment. Six patients underwent ND (3) and repeat primary site biopsies (3) for positive PET-CT but had no viable tumour. One patient had positive HPV-detect and positive PET-CT and liver biopsy, indicating 100% agreement for HPV-detect and residual cancer.Conclusions:We demonstrate that HPV16-detect is a highly sensitive and specific test for identification of HPV DNA in plasma at diagnosis. HPV DNA post-treatment correlates with clinical response.

Abstract CT084: A Phase I dose-escalation study of ATR inhibitor monotherapy with AZD6738 in advanced solid tumors (PATRIOT Part A)

Many cancers have high levels of replication stress and a poorly functional G1/S DNA damage checkpoint. This may render them more susceptible than normal tissues to inhibition of ATR, an apical kinase in the DNA damage response and critical part of the response to DNA replication stress. We report the early results of the monotherapy dose-escalation phase of the PATRIOT study of AZD6738, an orally active ATR inhibitor in patients (pts) with advanced solid tumors (NCT02223923), whose endpoints were MTD, safety, tolerability, pharmacokinetics (PK) and preliminary efficacy. 26 pts were enrolled between July 2014 and July 2016 in a 3+3 design. Pts received continuous BD dosing. PK analyses were performed. Dose limiting toxicities (table 1) were thrombocytopenia (G3 with epistaxis, 1 participant; G4, 2 participants), pancytopenia (G4, 1 participant), increased amylase (G3, 1 participant). Other treatment-related AEs (probably or definitely caused by AZD6738) affecting ≥2 participants were fatigue (9; 35% G1-4, 0% G3-4), anemia (7; 23% G1-4, 12% G3-4), nausea (4; 15% G1-4, 0% G3-4), thrombocytopenia (5; 19% G1-4, 15% G3-4), anorexia (3; 12% G1-4, 0% G3-4), dysgeusia (3; 12% G1-4, 0% G3-4), vomiting (2; 8% G1-4, 0% G3-4). The MTD was 160 mg BD, given continuously. Two RECIST partial responses were observed in pts with SCCHN and nasopharyngeal carcinoma, one confirmed. Median duration taking AZD6738 was 97 days, range 30-279 days (evaluable patients only). Two pts remain on treatment, three pts discontinued due to treatment-related toxicity. Expansion cohorts have been initiated at 160mg BD, exploring a number of alternative treatment schedules designed to offset cumulative toxicity and test efficacy of AZD6738 monotherapy and the presence of high replication stress, DNA damage response deficiencies or ATM loss. Schedules include: AZD6738 given at 160mg BD for 21 of a 28 day cycle and 5 days on, 2 days off. A parallel study is investigating AZD6738 in combination with palliative radiotherapy.[Funded by CRUK CRUKD/14/007] Citation Format: Magnus T. Dillon, Aude Espinasse, Sally Ellis, Kabir Mohammed, Lorna G. Grove, Lyndall McLellan, Simon A. Smith, Graham Ross, Sola Adeleke, Kin Woo, Eleni Josephides, James F. Spicer, Martin D. Forster, Kevin J. Harrington. A Phase I dose-escalation study of ATR inhibitor monotherapy with AZD6738 in advanced solid tumors (PATRIOT Part A) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr CT084. doi:10.1158/1538-7445.AM2017-CT084

Intensity modulated radiotherapy in locally advanced thyroid cancer: Outcomes of a sequential phase I dose-escalation study

BACKGROUND AND PURPOSE To determine the safety and tolerability of dose-escalation using modestly accelerated IMRT in high-risk locally advanced thyroid cancer requiring post-operative radiotherapy, and to report preliminary data on efficacy. MATERIALS AND METHODS A sequential Phase I dose-escalation design was used. Dose level one (DL1) received 58.8 Gy/28F to the post-operative bed and 50 Gy/28F to elective nodes. DL2 received 66.6 Gy/30F to the thyroid bed, 60 Gy/30F to post-operative nodal levels and 54 Gy/30F to elective nodal levels. Acute (NCICTCv.2.0) and late toxicities (RTOG and modified LENTSOM) were recorded. The primary endpoint was the number of patients with ≥Grade 3 (G3) toxicity at 12 months post-treatment. RESULTS Fifteen patients were recruited to DL1 and twenty-nine to DL2. At 12 months ≥G3 toxicities were 8.3% in both DL1 and DL2. At 60 months, ≥G3 toxicity was reported in 3 (33%) patients in DL1 and 1 (7%) in DL2. One patient in DL2 died at 24 months from radiation-induced toxicity. Time to relapse and overall survival rates were higher in DL2, but this was not statistically significant. Dose-escalation using this accelerated regimen can be safely performed with a toxicity profile similar to reported series using conventional doses.