CORRESPONDENCE

Re: New Guidelines to Evaluate the Response to Treatment in Solid Tumors (Ovarian Cancer)

Peyton T. Taylor, Doris Haverstick

Affiliations of authors: Division of Gynecologic Oncology, Oregovomab (OvaRex) Phase 3 Collaborative Trial (IMPACT II) (PTT); Division of Clinical Pathology, University of Virginia Health System, Charlottesville, VA (DMH)

Correspondence to: Peyton T. Taylor, MD, Division of Gynecologic Oncology, P. O. Box 800712, Charlottesville, VA 22908 (e-mail:ptt9y{at}virginia.edu)

Rustin et al. (1) have summarized a simplification of the guidelines for the definition of response in ovarian cancer clinical trials proposed by the Gynecologic Cancer Intergroup. The guidelines state that "Patients are not evaluable by CA125 if they have received mouse antibodies...." We believe this advisement deserves careful scrutiny and further consideration (2).

Depending on the assay, the presence of human anti-mouse antibodies (HAMA) in the serum of patients can affect the accuracy of CA125 measurements to different degrees, as determined in several pilot studies (3,4). We used samples containing varying levels of potentially interfering HAMA to assess the performance of two commonly available automated clinical CA125 assay platforms. The ImmuLite 2000 CA125 assay (Diagnostic Products, Los Angeles, CA) uses a murine anti-CA125 monoclonal antibody to capture the CA125 in the serum sample and detects bound CA125 with a polyclonal rabbit anti-CA125 antibody. The AxSym CA125 assay (Abbott Laboratories, Abbott Park, IL) uses a sheep anti-CA125 polyclonal antibody to capture CA125 in the serum and detects CA125 with a monoclonal murine anti-CA125 antibody. Both assays incorporate a wash step before quantifying CA125 in the residual sample. We posited that increasing concentrations of HAMA were more likely to influence the ImmuLite platform because of the possible binding of HAMA to the murine capture antibody.

A residual pooled serum sample from an oregovomab clinical trial (2) with a known high HAMA concentration was used to test the level of interference in both assays. This sample was serially diluted in normal human serum and enough purified CA125 (5) was added to each sample to yield a final CA125 concentration of approximately 100 U/mL. CA125 was quantified in parallel by two independent clinical pathology diagnostic laboratories. The assay results are shown in Table 1.


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Table 1. CA125 assay results as a function of HAMA concentration*

 
Absolute CA125 measurements in the spiked normal serum were similar using the two platforms. However, CA125 spiked into serum containing the two highest HAMA concentrations, 43 050 ng/mL and 14 347 ng/mL, resulted in noticeably lower CA125 measurements in the ImmuLite assay than in AxSym system, suggesting interference by the HAMA. In our experience with oregovomab administration in clinical studies, we have found that HAMA levels, as measured using the Immunomedics HAMA kit, peak (after four to eight injections) at less than 40 000 ng/mL in 95% of patients. We are unaware of other murine antibody applications likely to induce greater levels of HAMA than oregovomab. Results from this pilot study indicate that a universal effect of HAMA on CA125 measurement should not be assumed. HAMA and anti-idiotypic antibodies interfere less with assays that use polyclonal, non-murine capture antibodies, and a murine monoclonal detecting antibody than with assays that use the reverse antibody pairing (murine capture antibodies). It is appreciated that individual patient samples may contain other heterophilic antibodies that impact diagnostic test performance. Our findings suggest that, using appropriate assays, patients with previous exposure to murine antibodies for either diagnostic or therapeutic purposes may be reliably followed for tumor response by CA125 monitoring in both clinical trial and patient management settings. We recommend that the same assaysystem be used for comparative serial monitoring of individual patients over time.

REFERENCES

1 Rustin GJ, Quinn M, Thigpen T, du Bois A, Pujade-Lauraine E, Jakobsen A, et al. Re: New guidelines to evaluate the response to treatment in solid tumors (ovarian cancer). J Nat Cancer Inst 2004;96:487–8.[Free Full Text]

2 Berek JS, Taylor PT, Gordon A, Cunningham MJ, Finkler N, Orr J Jr., et al. Randomized placebo-controlled study of oregovomab for consolidation of clinical remission in patients with advanced ovarian cancer. J Clin Oncol 2004;22:3507–16.[Abstract/Free Full Text]

3 Davelaar EM, Schutter EM, von Mensdorff-Pouilly S, van Kamp GJ, Verstraeten RA, Kenemans P. Clinical and technical evaluation of the ACS:OV serum assay and comparison with three other CA125-detecting assays. Ann Clin Biochem 2003;40:663–73.[CrossRef][ISI][Medline]

4 Roth HJ, Zahn I. ACS OV: an alternative to well established tests also measuring CA 125? Clin Lab 1997;43:515–26.

5 Schultes BC, Baum RP, Niesen A, Noujaim AA, Madiyalakan R. Anti-Idiotype induction therapy: anti-CA125 Antibodies (Ab3) mediated tumor killing in patients treated with Ovarex mAb-B43.13 (Ab1). Cancer Immunol Immunother 1998;46:201–12.[CrossRef][ISI][Medline]



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