eRAPID: Online Symptom Reporting in Lung Cancer

Summary

Participation Requirements

Description

Background: Lung cancer is a leading cause of cancer-related morbidity and mortality. There are 2 main categories of lung cancer: non-small cell lung cancer (NSCLC) and small cell lung cancer (SCLC). NSCLC accounts for approximately 85% of lung cancer diagnoses, almost 70% of NSCLC cases are diagnos...

Background: Lung cancer is a leading cause of cancer-related morbidity and mortality. There are 2 main categories of lung cancer: non-small cell lung cancer (NSCLC) and small cell lung cancer (SCLC). NSCLC accounts for approximately 85% of lung cancer diagnoses, almost 70% of NSCLC cases are diagnosed in the advanced/metastatic stages (IIIB-IV) of the disease. Pleural mesothelioma is another rare form of lung cancer, the average incidence across European countries is 20 cases per million people. Historically, patients with NSCLC were treated with the same algorithm, without consideration of their histological sub-type or their molecular profile. More recently, personalised therapies based on histology and/or molecular pathology have become the standard of care. The stage of NSCLC determines treatment options, with surgery being the mainstay of treatment for patients in early stages of the disease (stages I-IIIA). Additionally, those with localised disease spread (stages II and IIIA) may receive adjuvant therapy [11]. In patients with advanced/metastatic disease (stages IIIB-IV) and a performance status (PS) score of 0-2, the first line treatment options include chemotherapy regimens with or without immunotherapy or targeted biological therapy. Patient reported outcome measures (PROMs) encompass data self-reported by patients about how they feel and function and include symptoms, physical function, emotional distress and health-related quality of life (HRQoL). PROMs are becoming important for patient care, as they provide the means of recording the experience of the patient in a structured format readily available to relevant clinical staff. Recently a randomised control trial (RCT) in advanced lung cancer using web-mediated follow-up showed overall survival benefit of 7-9 months compared to usual care, whilst maintaining cost-effectiveness. The relapses were detected earlier in patients in the intervention arm facilitating earlier and appropriate treatment initiation compared to patients in the control arm. Study aims: This study will systematically capture patient reported disease-related symptoms, treatment-related side effects and HRQoL in a cohort of patients treated with systemic anti-cancer therapy (SACT) for thoracic cancer. The objectives are: To compare disease-related symptoms and HRQoL across groups of patients stratified by patient and clinical characteristics. To compare treatment-related side effects of patients prescribed chemotherapy, tyrosine kinase inhibitors (TKIs) or checkpoint inhibitors. To compare outcomes, such as healthcare resource utilisation (HCRU), in patients systematically self-reporting symptoms To examine patient acceptance, feasibility of this approach and optimal means of engaging with patients in the systematic PROMs reporting in a real world setting. To assess the utility of PROMs reported by patients to their healthcare professionals. Study design: This is an interventional, prospective study conducted at a single cancer centre. Patients with a diagnosis of thoracic cancer prescribed SACT will be enrolled in the study at oncology clinic visits. The intervention is an electronic patient self-report of disease-related symptoms, treatment-related side effects and HRQoL. This design allows the assessment of the utility to clinicians of PROMs reporting in the real world setting and provides an opportunity to study customised patient interventions based on PROMs reporting. There will be two cohorts of patients. Cohort 1: Patients with online access at home, able to report PROMs from a location of their choice, using their own devices (laptop, tablet, smart phone). They will be requested to report weekly. 1. Cohort 2: Patients without online access who will complete PROMs on a tablet before their scheduled clinic appointment in a private space at Leeds Cancer Centre (LCC). Reporting frequency will be governed by frequency of routine clinical visits. Table 1: SACT prescribed for enrollment in the study Diagnosis Treatment description NSCLC Platinum-based chemotherapy: Carboplatin-based Cisplatin-based Non-platinum-based chemotherapy Pemetrexed TKIs Immune-checkpoint inhibitors (inc. anti-PDL1) SCLC Platinum-based chemotherapy: Carboplatin-based Cisplatin-based Non-platinum-based chemotherapy Pleural mesothelioma Platinum-based chemotherapy: Carboplatin-based Cisplatin-based Non-platinum-based chemotherapy Pemetrexed Number of patients: All patients meeting patient selection criteria during the recruitment period will be invited to participate. Approximately 100 patients are expected to be enrolled (70 patients with a diagnosis of NSCLC, 20 patients with a diagnosis of SCLC, and 10 patients with a diagnosis of pleural mesothelioma). This estimation is based on the number of thoracic cancer patients receiving SACT at LCC, the proportion who relapse, and 75% of eligible patients enrolling. Recruitment and study duration: Index date is defined in both cohorts as the initiation of a line of SACT within the study period. For patients newly diagnosed within the study period, this will be the initiation of their 1st line of therapy (LoT). For patients diagnosed prior to the study period, the index date will be initiation of 1st or subsequent LoT. Collecting baseline PROMs at the start of a LoT allows the analysis of change from baseline in disease- and treatment-related side effects with each new LoT. If the patient wishes to be enrolled, they will be trained how to use the system. The formal consent will be completed electronically and then participant complete baseline questionnaires on the electronic platform. Recruitment will occur over 12-months with 12-month follow-up. There will be an interim study review to assess the number of patients enrolled, description of patients enrolled, systematic PROMs reporting compliance, and interim participant feedback. Instruments' reporting frequency: Three instruments will be used: eRAPID Patient reported adverse events (PRAE) CTCAE adapted symptom questionnaire for lung cancer, including disease-related symptoms and treatment-related side effects EORTC Quality of Life Questionnaire (QLQ-C30) EuroQol General Quality of Life questionnaire Cohort 1 Patients (Online access) symptom questionnaire is to be completed weekly, and the quality of life questionnaires at baseline and then every 12 weeks over the year. Cohort 2 Patients' (In clinic access) symptom questionnaire to be completed online before routine clinic appointment. Type of treatment and frequency of clinics will determine the frequency of questionnaire completion. Software: eRAPID uses a web-based questionnaire builder system (QTool) to support the collection and clinical integration of patients' reports. Algorithmic questionnaire scoring generates severity-dependent management advice to patients and staff when patients self-reports using the PRAE CTCAE: Patients login to QTool using a unique user name and password, complete the questionnaires remotely on computers/mobile phones/tablets or on a tablet provided in clinic at LCC. Immediate, tailored advice derived from a series of algorithms is generated in response to reported symptoms and toxicities. If severe symptoms are reported, patients are advised to contact the hospital immediately and an alert is sent to a member of the clinical team. For mild/moderate complications, information about self-managing these issues are provided in QTool and hyperlinks to more detailed advice on the eRAPID patient websites. PROMs are available for patients to view in their QTool login and for clinicians to review in the individuals' electronic medical record. Healthcare professionals' and patient feedback: Interviews will be conducted with healthcare professionals and patients about their views of using the eRAPID system. Five members of staff will be interviewed (n=3 oncologists, n=2 nurses) twice during the study period to gain feedback on the usefulness of the eRAPID system in lung cancer care. Approximately 12 patients will be interviewed at different stages of using the system from home or from clinic. Clinical variables: Patient characteristics, clinical characteristics, treatment variables will be captured either prospectively in a study case report form (CRF) or retrospectively by extracting the data from hospital electronic systems. Data analysis Baseline demographic and clinical data will be tabulated using frequencies and summary by age, gender, cancer pathology type, stage and treatments. Recruitment strategy feasibility will be evaluated by summarising the eligibility and consent processes. The proportion of patients who meet the eligibility criteria in terms of cancer site, treatment type and timescale will be reported using information from the electronic health record. The number of patients completing the adverse events (AE) online vs those in clinic will be summarised. Where available, reasons for ineligibility and non-participation in the study will be summarised. Retention during the study, including the number of participants withdrawing from the study and the timing of and reasons for withdrawal will also be presented. The number of participants involved at each stage will be summarised (patients identified, approached, consented, completed symptoms and side effects). The integrity of systems will be assessed by exploring any technical issues encountered during the study, summarising the rates of questionnaires not being fully completed (assessed by incomplete calls or time-outs depending on the system used). Reasons for patients completing symptoms and side effects in clinic rather than from home will be presented. Time taken to complete the questionnaires will be summarised using time stamps of start and end of calls/online sessions. The numbers of expected and additional AE reports and severe AE alerts generated will be summarised overall, by cancer type, treatment and completion modality (online vs clinic). The number of telephone calls to hospital staff, acute admissions, ward stays, contacts with general practitioner and/or community services (where available) and number of deaths will be summarised overall and by treatment modality. Changes to supportive medication, treatment (chemotherapy, immunotherapy, targeted therapies) doses and treatment plans and the percentage of planned therapy received will be summarised overall and by treatment modalities. Differences between treatments may be explored using logistic or linear regression (as appropriate) adjusted for stratification factors. Clinician/staff acceptability will be explored by content analysis of the interviews and field notes.

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