Adjuvant systemic chemotherapy and hormonal therapy. Effect on local recurrence in the conservatively treated breast cancer patient.

BACKGROUND: The purpose of this study is to determine the impact of adjuvant systemic chemotherapy and adjuvant hormonal therapy on local relapse in the conservatively treated breast. MATERIALS AND METHODS: Before December 1989, 548 patients underwent lumpectomy with axillary dissection followed by radiation therapy to the intact breast. Adjuvant systemic therapy was administered as clinically indicated. The majority of patients with pathologically involved lymph nodes received adjuvant systemic therapy, whereas those with pathologically negative lymph nodes received no adjuvant systemic therapy. The majority of patients received a course of radiation therapy either concomitant with or before systemic therapy. In only nine cases was radiation therapy delayed more than 16 weeks after surgery. RESULTS: As of June 1992, the 548 patients had a median follow-up of 6.4 years. In univariate and multivariate Cox regression analysis, patient age and adjuvant systemic chemotherapy were statistically significant independent prognostic factors relating to breast relapse. Those patients who received adjuvant systemic chemotherapy had a lower breast relapse than those who did not. Among patients who received tamoxifen, there was a statistically insignificant trend toward a lower relapse rate compared with those who did not receive tamoxifen. CONCLUSIONS: It appears from this retrospective analysis that patients who received adjuvant systemic therapy, either concomitantly or after their course of radiation therapy, had a lower relapse rate in the conservatively treated breast than those patients who received no adjuvant systemic therapy.

Effects of anti-C5a antibodies on human polymorphonuclear leukocyte function: chemotaxis, chemiluminescence, and lysosomal enzyme release.

Previous investigation has demonstrated that in vivo complement activation can produce acute lung injury. Complement component C5a has been implicated as a key factor in this damage. In addition, C5a is thought to play a central role in mediating polymorphonuclear leukocyte (PMN) function. Studies suggest that administering antibodies to C5a might play a role in attenuating lung injury in animal models of sepsis. To evaluate further the effects of anti-C5a antibodies, we compared the effects of anti-human C5a des-Arg monoclonal (MAb) and polyclonal (PAb) antibodies on PMN functions including chemotaxis, chemiluminescence, and lysosomal release. PMN chemotaxis was assayed in Boyden chambers using 0.5% zymosan-activated serum (ZAS) as a source of C5a and 0.5% normal human serum (NHS) as a control. PMN chemiluminescence was measured by scintillation counting using ZAS as a stimulant and NHS as control. In addition, the lysosomal marker enzyme beta-D-glucuronidase was spectrophotometrically determined to assess lysosomal release. The PMN chemotactic response to ZAS was completely abolished with MAb and PAb anti-C5a antibodies (p less than 0.01). Control antibodies had no effect on ZAS-stimulated chemotaxis. The anti-C5a MAb markedly inhibited PMN chemotaxis at concentrations ranging from 20 to 0.2 microgram/ml, and was approximately 30 times more potent than the PAb. ZAS-stimulated PMN chemiluminescence was markedly decreased in response to monoclonal antibodies to C5a. In contrast, the control antibody did not inhibit ZAS-stimulated PMN chemiluminescence. Anti-C5a antibodies also significantly attenuated the release of the lysosomal enzyme beta-D-glucuronidase from ZAS-stimulated PMN. Anti-C5a antibody treatment did not cause a significant lytic effect when incubated with PMN, as demonstrated by the absence of the cytoplasmic marker lactate dehydrogenase in the supernatant. These studies suggest that in states of complement activation, MAbs and PAbs may decrease PMN functions including chemotaxis, chemiluminescence, and lysosomal enzyme release.