London - Institute of Cancer Research and The Royal Marsden

Horizontal Tabs

Overview

Our Centre

The Institute of Cancer Research (ICR) and the Royal Marsden (RM) are committed to the accelerated and optimal development of rationally designed, novel anti-cancer drugs, through hypothesis-testing and biomarker-driven trials to ensure rapid drug approval and and maximal likelihood of patient benefit.

The joint organisation is internationally at the forefront of cancer research with a particular interest in not only understanding how cancer cells acquire genomic mutations, which can confer resistance to treatments, but crucially studying through both laboratory and clinical studies how to maximise selective tumour cell kill through novel and combinatorial treatment strategies.

The Drug Development Unit (DDU) benefits from its unique position between The ICR and The RM, being ideally placed to evaluate a broad spectrum of novel anti-cancer agents with a unique potential for treating large numbers of patients with diverse tumour types and extensive experience in delivering phase I oncology trials.

Our multidisciplinary team is dedicated to conducting biomarker-driven, hypothesis-testing, clinical trials that serve patients suffering from cancer. These pursue proof of mechanism and proof of concept through the conduct of the Pharmacological Audit Trail and pharmacokinetic-pharmacodynamic analyses. Our goal is to optimise drug dosing and scheduling to maximise the likelihood of drug tolerability and patient benefit and involve statistical support with expertise in adaptive and Bayesian designs.
Our purpose-built Oak Ward at the Royal Marsden – a ward dedicated to Phase 1 clinical trials for cancer patients - was opened in 2005, with both day-care and 24-hour inpatient facilities along with single en-suite rooms for trials that require patient isolation such as oncolytic viral therapies. This bespoke unit fully supports the delivery of first-in-human, proof of concept, innovative clinical trials.
Our clinical trials also pursue the conduct of predictive biomarker studies using for example next generation sequencing, uniplex and/or multiplex immunocytochemistry, FISH or CISH and RNAish of tumour material acquired from biopsies as well as genomic analyses of circulating tumour DNA or circulating tumour cells. Our overall goal is to identify as early as possible in clinical development predictive biomarkers defining which patient population the drug or drug combination can benefit.
Our clinical pharmacodynamics biomarker group is key to setting up, validating and performing pharmacodynamics assays in normal tissue and tumour to evaluate target engagement, information that is crucial to recommending the dose and schedule of targeted agents
We have capacity to perform pharmacokinetic analysis in collaboration with the drug metabolism and pharmacokinetic group at The Institute of Cancer Research.
We are focused on not only developing circulating biomarkers but also imaging biomarkers utilising MRI and PET to predict treatment response or detect response or resistance as early as possible.
Our Investigator-Initiated Trials (IIT) team (Sponsoring Team), established in 2012, delivers the Centre’s academically led and locally sponsored Phase I trial portfolio. This work is conducted in partnership with The ICR Clinical Trials and Statistics Unit (CTSU). The team brings together clinical translational scientists and biostatisticians to apply adaptive trial designs to biomarker-led early phase trials for the benefit of cancer patients. In collaboration with commercial and academic partners our aim is to take forward promising novel therapies, including novel agents discovered at The ICR, or therapy combinations which would otherwise not progress through clinical trials. DDU’s investigator-initiated trials team fully support the operational delivery of Phase I trials from initial discussions of trial concept, through to protocol design and development, regulatory submissions, management and monitoring, to analysis and reporting.

With strategic partnership with several leading Pharmaceutical Industry partners, our centre conducts over 50 early phase clinical trials, for solid tumour patients.

Our Patient Population

We see over 700 patients per year across all solid tumour malignancies. In 2019, just over 260 patients participated in our early phase clinical trials.

Organisations affiliated with the ICR ECMC:

Our location

Our site is located approximately one mile from Sutton Train Station, served by the Thameslink line and by Southern Trains from London Bridge and London Victoria. There are bus stops and a taxi rank outside the station, with buses 80, 280, and 420 serving the ICR. Belmont station, on the London Victoria to Epsom Downs line, is approximately a quarter of a mile from the ICR. Transport for London can help plan your journey.

Contact the Centre Manager

Dr. Bindumalini Rao Baikady
Head Of Operations,
Drug Development Unit and Division of Clinical Studies
Sycamore House
Institute Of Cancer Research and Royal Marsden Hospital
Downs Road, Sutton, SM2 5PT

bindu.baikady@icr.ac.uk
+44 (0) 208 661 3524

Address

Institute of Cancer Research
Department of Medicine
Sycamore House
15 Cotswold Road
Sutton, SM2 5NG

Team Members

Professor Johann Sebastian De Bono

Centre Lead

Expertise:

Adult

johann.de-bono@icr.ac.uk

Professor Johann de Bono MBChB FRCP MSc PhD FMedSci is Regius Professor of Cancer Research and a Professor in Experimental Cancer Medicine at The Institute of Cancer Research and Royal Marsden. He is also the Head of the Division of Clinical Studies at The ICR and the Director of the Royal Marsden Drug Development Unit, leading the NIHR Experimental Cancer Medicine Centre team and co-leads the NIHR Biomedical Research Centre overseeing the Systemic Therapies theme.

He has led a number of clinical trials that have changed the standard of care for prostate cancer, including trials of the ICR-discovered drug abiraterone, cabazitaxel, enzalutamide and olaparib and has published more than 500 manuscripts including multiple publications in the New England Journal of Medicine and The Lancet. He has led on the study of circulating tumour cells, whole blood expression profiling and plasma DNA next generation sequencing by both targeted sequencing, exome and low pass whole genome analyses in metastatic prostate cancer patients and pioneered the concept of patient molecular stratification in early clinical trials through the Pharmacological Audit Trail.

He also reported on the importance of germline and somatic DNA repair defects in lethal prostate cancer and co-led studies that have mapped the molecular landscape of lethal prostate cancer, and shown how circulating biomarkers can be used as a multi-purpose biomarker for managing this disease. He runs a laboratory focused on biomarker analyses supporting anticancer drug development.

Dr Bindumalini Rao Baikady

Centre Business Lead

Bindu.Baikady@icr.ac.uk

Dr Bindumalini Rao Baikady PhD is Head of Operations and centre business lead at the Drug Development Unit. In her current role, she is responsible for management of all operational aspects of clinical trials within the Unit. She is also involved in developing and strengthening academic/industry partnership to support development of novel therapies which otherwise would not transit to next stages.

Bindu obtained her PhD from Imperial College London, where she also continued to work as post-doctoral fellow. Her research project involved target identification, development of experimental drugs, pre-clinical validation studies, and establishing mechanism(s) of action for lead compounds, in hormone dependent cancers. She joined clinical trials team led by Prof. Johann de-Bono at the ICR, in 2007, where she gained experience in managing clinical trials. Bindu has special interest in developing infrastructure and modelling resources to match growing needs of clinical trials.

Dr Udai Banerji

ECMC Co-Lead

Expertise:

Adult

udai.banerji@icr.ac.uk

Professor Udai Banerji MD PhD is the Deputy Director of the Drug Development Unit. He plays a key role in linking the pre-clinical expertise in drug discovery at The Institute of Cancer Research to the first-in-human evaluation of these drugs at the Royal Marsden NHS Foundation Trust. His interests include the discovery and development of AKT, RAF, CHK1, MPS-1, HSF-1 and folate targeted drugs. He has been the principal or sub-investigator of over 100 first-in-human clinical trials of anti-cancer agents.

Professor Banerji led a number of CRUK sponsored trials, including Phase-1 trials of AT13148, SRA-737 and BT1718.. He has also conducted investigator initiated clinical trials of drugs in alternative dose, schedules or combinations to further the chances of clinical development of novel anticancer drugs in collaboration with academic and pharmaceutical industry partners.

In addition to running phase I clinical trials, Professor Banerji’s independent laboratory interests include biomarkers and drug resistance. He heads the Clinical PD Biomarker group that sets up, validates and runs pharmacodynamics assays to be used on normal and tumour tissue to support phase I studies. He also runs the Clinical Pharmacology Adaptive Therapy team focused on understanding mechanisms of resistance to targeted therapy and generating hypotheses for trials of combinations of targeted therapy.

Sarah

PPIE (Patient and Public Involvement and Engagement) Lead

Sarah has 24 years’ experience in cancer nursing and has completed a BSc in Cancer Nursing and MSc with Advanced Nurse Practitioner accreditation. As lead nurse on the drug development unit for ten years she was integral to the set-up of the unit and implemented a new model of service delivery for the nursing care of patients on early Phase trials. In her current role she is undertaking a PhD exploring the effects on cognitive function of novel compounds in the context of Phase I trials. As PPI lead she established and continues to facilitate the Patient and Carer Research Review panel the RM/ICR which continues to run successfully in it’s 11^th year.

Scientific & Operational Team

Dr Timothy Yap

Consultant and Clinician Scientist

Timothy.Yap@icr.ac.uk

Dr Juanita Lopez

Consultant, Drug Development Unit

Juanita.Lopez@icr.ac.uk

Dr Alison Turner

Head of Investigator Initiated Trials Team

Alison.Turner@icr.ac.uk

+44 (0) 207 352 8133

Dr Gerhardt Attard

Consultant and Clinician Scientist

gert.attard@icr.ac.uk

+44 (0) 20 8722 4178

Dr Flo Raynaud

Team Leader (Drug Metabolism and PharmacoKinetics)

florence.raynaud@icr.ac.uk

+44 (0) 208 722 4212

Ruth Riisnaes

Senior Scientific Officer (Histopathology)

ruth.riisnaes@icr.ac.uk

+44 (0) 208 915 6627

Penny Flohr

Senior Scientific Officer (CTC & Blood Based Biomarkers)

penny.flohr@icr.ac.uk

+44 (0) 20 7352 8133

Dr Suzanne Carreira

Lead Laboratory Scientist (Translational Research & Sequencing)

suzanne.carreira@icr.ac.uk

Dr Karen Swales

Lead Laboratory Scientist (Pharmacodynamic Biomarkers)

karen.swales@icr.ac.uk

Dr Daniel Nava Rodrigues

Histopathology Team

Daniel.navarodrigues@icr.ac.uk

+44 (0) 207 352 8133

Dr Nina Tunariu

Consultant Radiologist

nina.tunariu@icr.ac.uk

+44 (0) 20 8642 6011

Professor Raj Chopra

Head of Cancer therapeutics Division & Director of CRUK CTU

Expertise:

Paediatric

raj.chopra@icr.ac.uk

Dr Olivia Rossanese

Head of Biology

Expertise:

Paediatric

olivia.rossanese@icr.ac.uk

Operational Team

Praradchaya Lamb

GCP Compliance Manager (Clinical Trials)

praradchaya.lamb@icr.ac.uk

Tejas Avaiya

Senior Clinical Data Manager

tejas.avaiya@icr.ac.uk

Janine Salter

Biobank Contact

Janine.Salter@icr.ac.uk

+44 (0) 208 642 6011

Angela Little

Matron, Drug Development Unit & West Wing

angela.little@rmh.nhs.uk

Dr Mona Parmar

Project Manager, Investigator Initiated Trials Team

mona.parmar@icr.ac.uk

+44 (0)20 8915 6477

Sonia Serrano Fandos

Senior Trials Coordinator

Sonia.serranoFandos@icr.ac.uk

Mr Mark Bellchambers

GCP Compliance Manager (DMPK, PDbiomarker and Cancerbiomarker Laboratories)

Expertise:

Paediatric

mark.bellchambers@icr.ac.uk

Adult Expertise

Treatment Modalities

Gene therapy

Immunotherapy

Small Molecules

Facilities/Translational Research

Dedicated 24 hour stay facilities (Mon-Fri)
Radiopharmacy
On-site pharmacy
PK testing facility
Biobanking facilities
Dedicated research staff
Snap freezing facilities
On-site ITU (intensive treatment unit)
On-site central lab

Cancer Types

We have expertise in both solid tumours and haematological malignancies.

We care for all solid tumour patients in our early phase trials. While our focus is largely adult solid tumours, we have also conducted clinical trials serving patients with haematological malignancies including for example lymphoma and myeloma. We have a separate team focused on serving children suffering from cancer and have worked closely with that team to serve adolescent and young adult cancer patients.

Drug/Treatment Modalities

Advanced cellular therapies
Combination therapies
Oncolytic viral therapy
Personalised vaccine therapies

Radiotherapy

We have regular access to both proton and photon radiotherapy.

We have specific research expertise in:

Intensity Modulated Radiotherapy (IMRT)
Image Guided Radiotherapy (IGRT)
Sterotactic Radiotherapy (SBRT/SABRT)
Radioimmunoconjugates

We also have extensive experience in conducting first-in-human trials of alpha- and beta-particle emitting radioimmunoconjugates

Molecular Diagnostic Testing

We have the following available on a routine basis to our patients

Single gene testing
Disease specific NGS panel testing (next generation sequencing)
Large NGS panel testing
WGS (whole genome sequencing)
IHC
Multi-colour IF
FISH
CISH
RNAish
ddpCR
Plasma low pass WGS

This is available for tumours and for ctDNA (circulating tumour DNA).

Our biomarker laboratories are able to support clinical trial research needs and provide results of molecular tests within a week or less and have a dedicated pathologist.

Paediatric Expertise

The Royal Marsden (RM)’s 31-bed Oak Centre for Children and Young People opened at the Sutton site in September 2011 following a substantial £20 million new build, and is one of the largest comprehensive cancer centres for children and teenagers in Europe. Almost 600 inpatients and more than 5,000 day patients are seen at the Oak Centre every year. There are approximately 220 new malignant registrations in children and adolescents per year, including of leukaemia, central nervous system and extracranial solid tumours. Patients are referred to the Centre from south of the Thames, Kent and the south coast, although for early phase clinical studies patients are referred from all around the UK via clearly defined referral networks, with at least a third of patients recruited to paediatric early phase studies coming from out of region.

Our Centre runs the largest Paediatric and Adolescent Drug Development Programme in the UK and one of the largest in Europe and internationally. We have been formally designated by the Innovative Therapies for Children with Cancer (ITCC) European Early Phase Clinical Trials Consortium as a First-In–Child Study Centre. Investigators from our Paediatric and Adolescent Drug Development Unit are currently leading and involved in multi-centre national and international trials evaluating new therapeutic strategies, including trials of molecularly targeted agents and immunotherapies.

The Research activities of the RM Paediatric/Teenage and Young Adult (TYA) Clinical Unit (Head – Dr Julia Chisholm) and the Paediatric and Adolescent Drug Development Team are closely integrated with the Divisions of Cancer Therapeutics and Clinical Studies at The Institute of Cancer Research (ICR). Following the recent retirement of Prof Andy Pearson, the international recruitment process for his successor as ICR/RM Professor of Paediatric Oncology Drug Development and Academic Lead is currently underway.

The joint ICR/RM Centre’s comprehensive Paediatric and Adolescent Oncology Targeted Drug Development Programme comprises drug discovery, pre-clinical evaluation, early clinical trials and the Oak Foundation clinical facility. The clinical facility includes 18 children’s inpatient beds, a dedicated 13 bed TYA Cancer unit, outpatient chairs and day care beds for both children and TYA patients, (including those on Phase I/II clinical trials), together with an adjacent on site laboratory for pharmacokinetic and pharmacodynamic sample processing, and two suites for radioisotope therapy to help facilitate novel studies involving radioisotope components eg MIBG therapy. We are one of very few European centres with the facilities and expertise to run functional imaging biomarker studies within the context of Paediatric/TYA early clinical studies.

The goal of the Paediatric and Adolescent Oncology Targeted Drug Development Programme research strategy is to improve the five year survival of childhood and adolescent cancer by accelerating drug development for children and young people, via the following specific aims:

To increase the number of hypothesis-driven, first-in-child early phase clinical studies of molecularly targeted anticancer agents with embedded predictive and pharmacodynamic biomarkers, initiated and led by the RM/ICR Paediatric and Adolescent Drug Development Team.
To develop functional imaging approaches for incorporation into early clinical trials of molecularly targeted agents for childhood cancers.
To increase the number of children and young people in early clinical studies.

Over the past 9 years, investment by the Oak Foundation and other key sources such as the ECMC and NIHR Biomedical Research centre (BRC) has facilitated the development of a strong Paediatric and Adolescent Drug Development Team with knowledge and expertise in the field of drug development, and provided crucial infrastructure for the successful running of early clinical trials, in partnership with international academic networks major and pharma companies.

The team includes Paediatric and Adolescent Drug Development Consultants (integrated closely with the wider Consultant team within the Children & Young People’s Unit, who provide additional disease-specific expertise and who are chief investigators on international clinical trials themselves), Drug Development Fellows, Research Nurses, Trial Co-ordinators, Data Managers, and Tissue Collectors. The Team also integrates closely with translational scientists with extensive international research experience.

This supporting infrastructure has allowed the Paediatric and Adolescent early phase clinical trials portfolio to increase from just 2 open studies in 2006 to 26 open studies in 2015-16 (18 phase I, 8 phase II; 18 molecularly targeted agents; 15 first in child), with further new studies opening this year. This is the largest portfolio of paediatric early phase trials in the UK and one of the largest in Europe.

An important achievement has been to ensure as broad an early phase trial portfolio as possible to provide access to new drugs and thus additional therapeutic options to as many paediatric/adolescent patients as have need of them and choose to be enrolled. Our Centre has a well-balanced trial portfolio, with early clinical studies available across the disease spectrum: leukaemias and lymphomas, solid tumours and central nervous system (brain and spinal) tumours, with a balance between trials with broad inclusion criteria and those requiring specific molecular pre-selection, and a balance between oral drugs (often more outpatient-based regimens) and intravenously administered agents (which may require inpatient admissions or longer day care administration times).

We run trials of chemotherapeutic regimens, trials of molecularly targeted agents, and immunotherapy trials. Additionally, we have trials for patients across the wide paediatric/TYA age spectrum, with a balance of phase I and II studies, and a balance between pharma-sponsored and academic-sponsored studies.

We are increasingly able to:

Select novel agents based on newer, more relevant pre-clinical models (which we believe will be more predictive of clinical activity), and tumour molecular biology
Increase the availability of new agents for paediatric investigation by strong links with pharma companies and academic networks
Base clinical trials on strong biological hypotheses, including pharmacodynamic biomarkers to show proof-of-target inhibition and downstream effects
Develop clinical trial designs that do not require large numbers of patients, thus allowing for the more rapid completion of trials and movement of the most promising drugs into more frontline therapy;
Play a leading role in recruiting into international collaborative early clinical trials
Help accelerate the development of new drugs for children and young people by taking leading roles in international working groups influencing the regulatory landscape of new medicines development.

Treatment modalities:

1. Chemotherapy

2. Small molecules

3. Immunotherapy

Case studies:

BEACON-Neuroblastoma Phase II: Enormous progress has been made in the academic-sponsored BEACON-Neuroblastoma phase II trial designed and led by RM/ICR investigators and the first randomised trial for patients with relapsed neuroblastoma in Europe. The study is now open in 27 sites across 9 European countries and has been recognised by SIOPEN (the European clinical and research network for neuroblastoma) as the official trial for patients with relapsed neuroblastoma. Overall 160 patients are being enrolled and the trial is recruiting well. Importantly, it is one of the first adaptively designed early phase trials, which will efficiently answer multiple important research questions concurrently: the optimal choice of backbone chemotherapy to which novel agents can be added, and whether the first novel agent tested in the study (Bevacizumab) has a role to play in improving outcomes.

This adaptive design has already allowed a third new potential backbone regimen to be added based on emerging data in the scientific community, and the next choice of novel agents to add are formally under discussion within the SIOPEN committees. The Bevacizumab research question will be answered in 2016 and the backbone regimen question in 2017, with the likelihood of the most promising arms being moved forward into frontline treatment. The BEACON 2 study (based on the results of this original BEACON study) is already in planning as a multi-arm, multi-stage (MAMS) adaptively designed trial for testing further novel agents, to ensure there that all patients who relapse can access a relevant clinical trial. The international co-ordinating sponsor of the BEACON-Neuroblastoma study is the CRUK Clinical trials Unit in Birmingham, and it has attracted significant international charity funding.

LDK378 (Ceritinib) Phase I: (Sponsor: Novartis). This international first-in-child, predictive biomarker-driven study of an ALK inhibitor was developed jointly with the RM, one of just two UK sites, and we are a lead recruiting site internationally. The study is open to patients whose tumours have genetic aberrations in the ALK gene. The phase I dose escalation and food effect parts of the study have recently been completed and the study has move to further cohorts at the disease-specific recommended doses for expansion/phase II phase.

PD1-PD-L1 Immune Checkpoint Inhibitor Studies: The international Merck-sponsored Pembrolizumab Phase I/II study and the Roche-Genentech-sponsored Atezolizumab Phase I/II study both opened at RM/ICR (the UK lead site for both studies) in late 2015 and are recruiting very well, to time and target. These very promising immunotherapy agents are being studied in children and adolescents with a variety of solid tumour types including lymphomas.

Tumour Profiling Study – next Generation Sequencing Pilot Study: This ICR/RM pilot study of a molecular profiling initiative has recently opened and is based on a next-generation sequencing (NGS) panel of 80 genetic aberrations mutated in cancers that was developed at The ICR/RM. The hope is that the profiling will help find ‘actionable mutations’ driving paediatric cancers and potentially help guide future patient treatment.

Case Study

Case Studies

TAX-TORC - The first study from NIHR-ECMC alliance to progress to Phase II randomised, national study in ovarian cancer

A Phase I trial of AZD2014 and paclitaxel (TAX-TORC) is an example of how the infrastructure and support from ECMC were utilised in early phase studies, & expediting the transition to Phase II study. The Phase-I trials were successful and went into expansion on ovarian and squamous Lung carcinoma eventually leading to development of Phase II, randomised trial in ovarian cancer.

The Phase I trial was conducted by Investigator Initiated Studies Team at the ICR Centre. The infrastructure developed with ECMC support has enabled this cutting edge early phase trial to be fast tracked and progress to next stages. The results from the Phase I trial were presented at the AACR Clinical Plenary session in April 2015.

The TAX-TORC study is Phase I trial of the combination of AZD2014 (dual mTORC1 and mTORC2 inhibitor) and weekly paclitaxel in patients with solid tumours. The study is led by Dr.Udai Banerji, to assess the safety and tolerability of the combination drugs.

London - Institute of Cancer Research and The Royal Marsden

You are here

Horizontal Tabs

Scientific & Operational Team

Operational Team