Colorectal Cancer Clinical Trial
Official title:
Treatment of Inoperable Colorectal Cancer With Electrochemotherapy Through an Endoscopic System
A new approach to treating solid tumours (both operable and inoperable) has been carried out
by the Cork Cancer Research Centre (CCRC) at the Mercy University Hospital, Cork, Ireland
since 2002.
The approach simply allows a greater concentration of chemotherapy drugs to enter the tumour
cells rather than healthy cells. The uptake of the chemotherapeutic drug directly by the
tumour is aided through applying short electric pulses to the tumor mass (referred to as -
Electrochemotherapy or ECT). The pulses make the tumour more porous which allows the drug
easier access into the cancer cells, whereas other tissues and organs in the body remain
relatively poor at absorbing the drug, thereby reducing the potential side effects on healthy
tissues. This approach to date has been limited to skin based tumours due to the requirement
for the electrodes to be placed directly in contact with the tumour. Procedures with
electrochemotherapy have been applied to human patients in other countries of the EU, the US
and Japan.
The drug concentration used is significantly reduced due to the more targeted absorption by
the tumor and this significantly reduces side effects normally associated with chemotherapy.
A large number of preclinical and clinical Phase I and I/II studies have demonstrated the
efficiency and safety of ECT. These studies have included patients with melanoma, head and
neck squamous cell carcinoma, merkel cell carcinomas, basal cell carcinoma and adenocarcinoma
nodules. Case reports concerning other primary tumours have also been reported.
The investigators have developed an endoscopic approach (EndoVe system) for delivering the
electric pulses to internal cancers and are currently seeking to evaluate its efficacy in the
treatment of inoperable colorectal cancer. The treatment procedure is similar to standard
endoscopic colorectal examination (colonoscopy) with the added element of an intravenous
injection of bleomycin followed after eight minutes by the delivery of electric pulses (each
one less than 1msec in duration). The pulses are endoscopically delivered directly to the
tumour mass. The entire procedure is minimally invasive and does not require intensive care
follow up or stitches. If the treatment is successful the tumour will shrink in size in the
weeks following the procedure.
The objective of this study is to investigate the efficacy and safety of this approach in
reducing the size of the tumour.
The objective is to conduct treatment in a minimally invasive manner (using the endoscope)
and without the requirement for repeated doses of chemotherapy. The single dose of the drug
used (15,000 IU/m2 x Body Surface Area of bleomycin) has been well tolerated in all patients
treated previously with this approach to skin based cancers (in excess of 300 treatments
since 2003 in our hospital). Therefore, it is anticipated that patients are unlikely to
suffer side effects from the low concentration of drug used.
There are no known side effects of the instrument being tested. The pulse generator used has
been certified by European electrical safety bodies charged with assessing compliance of new
equipment with the present security rules for electrical devices. The electrical pulse
generator has the CE mark and is approved for use clinically; the endoscopic electrodes used
are a prototype system and are not currently CE approved.
The treatment is provided on an outpatient basis and does not involve an overnight stay. The
procedure is very similar to a colonoscopy examination with the added element of a low dose
chemotherapy drug being injected intravenously.
It reduces operative time; therefore there are fewer anaesthetic risks
At this time, the only option for patients with inoperable colorectal cancers is symptom
relief e.g. a defunctioning colostomy or stent placement. Both carry a risk profile greater
than the treatment with the EndoVe system.
Quicker recovery time- This is beneficial for the patient in terms of reduced exposure to the
hospital environment through a shorter in-patient stay.
Research: The potential benefits of studying novel medical instruments in general include the
development of new alternatives to conventional or existing therapies for certain cancers. In
particular, the widespread availability of the novel instrument being tested here may lessen
the requirement for more invasive procedures. It will reduce the amount of chemotherapy drug
being used, therefore reducing the systemic effects as well as the side effects.
The approach is currently being applied to inoperable cases but in the future it may
potentially be applied to both earlier stage cancers and other internal cancers e.g.
oesophagus, stomach etc.
Because the treatment procedure is short (outpatient basis), it allows these patients greater
time outside of the hospital environment to maximise and allowing for a greater quality of
life (this for both individual patient and community at large).
If this treatment approach is proven to be safe and effective, patients with inoperable
colorectal cancers will have a minimally invasive option for palliation of symptoms.
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