Cancer of Cervix Clinical Trial
Official title:
A Prospective Randomized Trial of Neoadjuvant Chemotherapy and Surgery Versus Concurrent Chemoradiation Therapy in Patients With Stage IB2-IIB Squamous Carcinoma of the Uterine Cervix
Carcinoma cervix is a common malignancy in women in developing countries including India. The standard treatment of locally advanced cervical cancer (Stages IB2 to IIIB)is concomitant chemoradiation (CT RT) using platinum based chemotherapy. Some studies, including a meta-analysis conducted by the Cochrane group, have indicated that few courses of neoadjuvant chemotherapy (NACT) followed by surgery may be superior to radical radiation alone for these patients. However NACT-Surgery approach has never been compared to the current standard of concomitant CT RT. The present study is undertaken to compare, in a randomized trial, NACT(3 courses of paclitaxel-carboplatin) followed by surgery to concomitant CT RT in stages IB2 to IIB squamous cell carcinoma of the uterine cervix.
Cancer of the uterine cervix is a major health problem in the developing countries including
India and is the commonest cancer amongst women in India with nearly 1,00000 new women
diagnosed to have this cancer every year. It is also the main cause of cancer related
mortality among women in India. At the Tata Memorial Hospital, approximately 1600 new
patients with cervical cancer are registered every year, of which nearly 70% present in
locally advanced stages.
A majority of patients diagnosed with stage IB cervical cancer in India have bulky tumours
(more than 4 cm in size) and have now been classified as stage IB2 as per the new FIGO
staging (1). These tumours are associated with a high incidence of pelvic lymph node
metastases. Finan et al (2) noted positive pelvic nodes in 15.5% of patients with stage Ib1
disease versus 43.8% with stage Ib2. Positive paraaortic nodes were present in 1.8% of
patients for stage Ib1 disease versus 6.3% of patients with stage Ib2. The result of radical
surgery and radical radiation therapy alone or in combination in these tumours has been
reported to be much inferior to stage IB1 tumours (60-65% vs. 85-90% five year survival). The
incidence of pelvic lymph node metastasis and the results of treatment of stage IB2 tumours
are more or less similar to those with stage IIB tumours.
The ability of radiotherapy or surgery to cure locally advanced cervical cancer is limited by
the size of the tumour, high incidence of pelvic lymph node metastases and potential for
systemic spread. Besides, the doses required to treat large tumours exceed the limit of
toxicity in normal tissue. Efforts to overcome this problem have included the use of
different chemotherapy drugs in different schedules. Chemotherapy has been used in the
management of locally advanced cervical cancers along with radiation therapy and surgery in
different ways e.g. neoadjuvant, adjuvant and concurrent.
The standard approach to using chemotherapy in the treatment of patients with locally
advanced disease is the use of concurrent chemoradiation. The concurrent use of single drug
and multiple drug regimens with radiotherapy has been tested in women with cervical cancer.
Recent data from prospective randomised trials and two meta-analyses (3-12) has unequivocally
shown significant survival advantage (both disease free and overall survival) with the use of
concurrent chemoradiation using platinum based chemotherapy compared to radical radiation
alone in patients with locally advanced cervical cancer (stages IB2-IIIB). A significant
reduction in distant metastases was also noted in the concurrent chemoradiation therapy arm.
This has led to acceptance of concurrent chemoradiation therapy as the new standard of care
for locally advanced cervical cancer. The meta-analyses of these trials showed that the
beneficial effect on survival was more evident in stage IB2 and stage II B tumours compared
to stage III B tumours (which constituted only about 35% of total number of patients).
An alternative approach is to use chemotherapy prior to local therapy, which could be surgery
or radiation. Some theoretical benefits of neoadjuvant chemotherapy (hereinafter abbreviated
as NACT) like eradication of micrometastases have long been advanced but never proven. It
certainly helps in the reduction of tumour bulk in some patients with locally advanced
disease. Some of these latter patients are then able to undergo surgery which is otherwise
not possible. The downside to NACT is the delay in institution of definitive treatment in the
20 to 30% patients who don't respond to chemotherapy. The randomized trials of NACT followed
by radiation therapy versus radiation therapy alone showed no improvement in survival
(13-19). It is possible that the failure to show a survival benefit with NACT followed by
radiation is due to the selection of chemoresistant clones which are also radioresistant. A
second explanation (also advanced for the failure of NACT approach in head and neck cancers)
is that NACT just selects out the patients (the ones who respond) who have biologically
favourable disease and confers no benefit by itself. Surgical removal of the tumour after
chemotherapy will however have no interaction with biochemical resistance of the remaining
clones. It therefore has the potential of providing a benefit additive to chemotherapy and
radiotherapy. In their papers Sardi et al (20, 21) reported on their randomized trial of NACT
(bleomycin, vincristine and cisplatin) followed by surgery plus radiation versus either
surgery plus radiation or radiation as the control arm in patients with stage 1B, 2B and 3B
cervical cancer. There was a high response rate to NACT in stage 1B patients (90% in 1B1 and
83.6% in 1B2). The overall survival in the whole group of stage 1B patients was superior in
the NACT arm (n=102) compared to the control arm (n=103) (81% Vs 66%, p = 0.025). The
resectability rate among stage 1B2 patients given NACT was 100% (n = 61) compared to 85% in
the controls (n = 56). In stage 2B the resectability rate in the NACT arm was 80% (n = 76)
compared to 56% in the control arm (n = 75). However there was no clear survival advantage of
the NACT arm over controls in stages 2B and 3B. Although this trial has reported a survival
advantage of NACT followed by surgery in a subgroup of patients its results are not
definitive. The treatment offered in the control arm of this trial (attempt at surgical
removal upfront in stages 1B and 2B or radiation only in stages 2B and 3B) was not standard
by current standard and the numbers in various groups were small. In order to be considered a
therapeutic option in locally advanced patients, NACT followed by surgery must be compared to
the current therapeutic standard, which is concurrent chemoradiation. The chemotherapeutic
options for cervical cancer at present are different from the one used by Sardi et al. The
combination of ifosfamide and cisplatin or paclitaxel and carboplatin is likely to show a
higher response rate compared to the regimen used by Sardi et al, which was bleomycin,
vincristine and cisplatin.
Considering these results from the literature, it appears logical to compare neoadjuvant
chemotherapy followed by surgery with concurrent chemoradiation in patients with stage IB2 to
IIB squamous carcinoma of the cervix.
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