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The highest standards of clinical evidence are phase III randomised, double-blind, controlled clinical trials. Their significance to clinical medicine is given theoretically by the fact that patients as well as doctors are blind to the treatment and no bias can subvert patients’ assignments to either treatment arm. Their practical significance is established by the fact that a large majority of potential treatments that are apparently effective in early phase trials fail in phase III trials. The reasons for failure of phase III trials are multiple: from the clinical translation of potential therapies of doubtful significance even in animal models and the clinical testing of drugs that were only tested in vitro during preclinical development, to inadvertent bias in patient selection in early phase trials (sometimes mandated by the characteristics of early phase clinical protocols).1
Dey et al2 provide an in-depth review and critique of the current status of the potential pathogenic interactions between cytomegalovirus (CMV) and glioma. Although some groups have reported finding CMV sequences and CMV-antibody reactivity in glioma tumours, many others have failed to do so (reviewed in detail in ref. 2). Also, there is no published evidence of CMV replication in the brains of adult patients. In addition, as described elegantly by Dey et al, many of the preclinical data that would be necessary to consider a pathogenic role for CMV in gliomagenesis are missing. Nevertheless, a clinical trial could still provide useful new information regarding a potential new treatment, even if the basis of its effects was poorly understood. Such a trial has been performed, reported and is the impetus for the review by Dey and colleagues.3 ,4
As a result of a critical examination of the data supporting a role for CMV in glioma tumours, Dey et al observe that the trial's results are reported in an unexpected manner: the authors report no effects at 6 months of treatment of patients with valganciclovir when compared with controls; yet, on continued valganciclovir use, the authors detect a large effect of valganciclovir on the survival of patients with glioma. Briefly, the authors report that, when compared with a single group of contemporary controls, not within any type of clinical trial, patients appear to survive longer, the longer they are treated with valganciclovir. How to explain the discrepancy between the double-blind, randomised arm of the trial that showed no effects at 6 months of treatment, compared with impressive effects reported on continued use of valganciclovir, especially when valganciclovir for the treatment of confirmed CMV infection is given for a maximum of 120 days, although usually for only 2–4 weeks? The phase III trial (and valganciclovir administration) ought to have stopped at 6 months, as per the clinical trial, in order to evaluate any possible long-term effects of the initial treatment. If the authors suspected that lengthier valganciclovir administration would be therapeutic, a new extended phase III trial should have been implemented. However, because of compassionate use, clinical investigators continued to administer valganciclovir to all patients after the end of the original phase III trial. Thus, if valganciclovir acts through inhibiting CMV, how is it that 6 months of treatment had no effect, yet continued treatment beyond recommended and tested clinical use in confirmed CMV infections had such a powerful effect?
A flaw in the logic used to analyse these data likely explains these results. Any group of patients will, of course, survive for different times; the longer a patient survives, the more valganciclovir he or she will have consumed. The authors then take survival data of patients who survived for 6 months, or who continued receiving valganciclovir, and conclude that the patients who were treated with valganciclovir the longest survived the longest. The simple fallacy is to conclude that the longer a patient takes valganciclovir, the longer they survive. In reality, the longer a patient lives, the more valganciclovir they consume. It is likely that the patients who survived longest also consumed higher volumes of infusions such as tea, coffee or water. For the sake and respect to patients’ lives suffering from this deadly disease, we pray that no claims will be made for the beneficial effects of tea or coffee.
Footnotes
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Competing interests None.
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Provenance and peer review Commissioned; internally peer reviewed.