Cyclophosphamide and Cisplatin Compared with Paclitaxel and Cisplatin in Patients with Stage III and Stage IV Ovarian Cancer
William P. McGuire, M.D., William J. Hoskins, M.D., Mark F. Brady, B.S., Paul R. Kucera, M.D., Edward E. Partridge, M.D., Katherine Y. Look, M.D., Daniel L. Clarke-Pearson, M.D., and Martin Davidson, M.D.
Background Chemotherapy combinations that include an alkylatingagent and a platinum coordination complex have high responserates in women with advanced ovarian cancer. Such combinationsprovide long-term control of disease in few patients, however.We compared two combinations, cisplatin and cyclophosphamideand cisplatin and paclitaxel, in women with ovarian cancer.
Methods We randomly assigned 410 women with advanced ovariancancer and residual masses larger than 1 cm after initial surgeryto receive cisplatin (75 mg per square meter of body-surfacearea) with either cyclophosphamide (750 mg per square meter)or paclitaxel (135 mg per square meter over a period of 24 hours).
Results Three hundred eighty-six women met all the eligibilitycriteria. Known prognostic factors were similar in the two treatmentgroups. Alopecia, neutropenia, fever, and allergic reactionswere reported more frequently in the cisplatin–paclitaxelgroup. Among 216 women with measurable disease, 73 percent inthe cisplatin–paclitaxel group responded to therapy, ascompared with 60 percent in the cisplatin–cyclophosphamidegroup (P = 0.01). The frequency of surgically verified completeresponse was similar in the two groups. Progression-free survivalwas significantly longer (P<0.001) in the cisplatin–paclitaxelgroup than in the cisplatin–cyclophosphamide group (median,18 vs. 13 months). Survival was also significantly longer (P<0.001)in the cisplatin–paclitaxel group (median, 38 vs. 24 months).
Conclusions Incorporating paclitaxel into first-line therapyimproves the duration of progression-free survival and of overallsurvival in women with incompletely resected stage III and stageIV ovarian cancer.
A standard therapy for women with advanced epithelial ovariancancer in the United States is an alkylating agent plus cisplatin.Cisplatin-based combination therapy has been found to be moreeffective than alkylating agents alone1 or combinations withoutcisplatin,2,3 when measured by clinical response rates and progression-freeintervals. However, the evidence of benefit in overall survivalis less compelling.4 When alkylating agents or combinationsnot containing platinum were used in advanced ovarian cancer,the anticipated average response rate was 40 to 50 percent (10to 20 percent complete pathological response), with a mediansurvival of 12 to 15 months. In women treated with cisplatincombinations as primary therapy, the response rates are 60 to80 percent, with complete responses being most common in womenwho have had adequate surgical therapy.5
The only large prospective, randomized study comparing cisplatinwith a cisplatin-containing combination in advanced ovariancancer suggested that cisplatin by itself is as effective asplatinum-based combinations6 and is less toxic and less likelyto lead to secondary tumors. Nevertheless, an overview of randomizedtherapeutic trials suggested that platinum-containing combinationsare better than cisplatin alone.7 In patients with advancedovarian cancer, a combination of cisplatin and cyclophosphamideis now standard treatment. Unfortunately, long-term diseasecontrol with this regimen occurs in less than 10 percent ofwomen with incompletely resected stage III disease and lessthan 5 percent of women with stage IV disease.8
After cisplatin emerged as an active drug in epithelial ovariancancer, over a decade passed before another drug was developedthat could elicit responses in women with platinum-refractorydisease. In 1989, paclitaxel was reported to produce a responserate of 24 percent in women with platinum-resistant ovariancancer (30 percent overall response rate).9 The activity ofthe drug was confirmed in a less heavily pretreated group ofwomen who received a higher starting dose.10 The response ratein these women was 37 percent, which made paclitaxel the mostactive single drug ever evaluated by the Gynecologic OncologyGroup in a phase 2 study of ovarian cancer. Subsequently, aphase 1 trial of the paclitaxel and cisplatin combination demonstratedthat the two drugs could be safely combined, with the paclitaxeladministered first as a 24-hour infusion, followed immediatelythereafter by cisplatin.11 The use of paclitaxel in epithelialovarian cancer has recently been reviewed.12,13
The reproducible activity of paclitaxel as salvage therapy,the ability to combine it easily and safely with cisplatin,and the poor long-term results of standard therapy led the GynecologicOncology Group to initiate a prospective, randomized phase 3trial to compare cisplatin plus paclitaxel with standard therapyin women with incompletely resected stage III or any stage IVovarian cancer.
Methods
Women with pathologically verified stage III epithelial ovariancancer (borderline tumors excluded) who had undergone a surgicalprocedure and were left with residual disease (>1 cm residualmass) or stage IV disease were eligible for study. They couldhave clinically measurable or unmeasurable (but able to be evaluated)disease. Other eligibility criteria included having undergoneno previous chemotherapy; having given informed consent; havinga Gynecologic Oncology Group performance-status score14 of 0,1, or 2; and having a white-cell count of at least 3000 percubic millimeter, a platelet count of at least 100,000 per cubicmillimeter, a serum creatinine level of 2.0 mg per deciliter(177 µmol per liter) or less, and serum bilirubin andserum aspartate aminotransferase values of no more than twicethe upper level of normal for the institution. Patients hadto enter the study within six weeks after the surgical procedure,and could have had no previous chemotherapy or radiation forthe ovarian cancer nor any previous cancer other than nonmelanomaskin cancer. Women with a history of cardiac arrhythmia or whowere currently taking an antiarrhythmic medication were excluded.Pathological material was centrally reviewed to verify thatit conformed with acceptable diagnoses. Similarly, each casewas reviewed for adequacy of the initial surgical procedure,and one of us reviewed all the operative and pathology reportsto assess the volume of tumors before and after surgery as wellas to record the findings at second-look surgery.
On entry into the study, the women underwent a review of theirhistory, physical examination, and laboratory procedures. Appropriateimaging procedures to measure the extent of disease were performedbefore and after every other course of therapy.
The women in the standard-therapy group received cyclophosphamide(750 mg per square meter of body-surface area intravenously)and cisplatin (75 mg per square meter intravenously at the rateof 1 mg per minute) every three weeks for a total of six courses.The women in the experimental-therapy group received paclitaxel(135 mg per square meter intravenously as a 24-hour continuousinfusion) and cisplatin (75 mg per square meter intravenouslyat a rate of 1 mg per minute) every three weeks for a totalof six courses. The women assigned to the experimental groupwere premedicated with dexamethasone (20 mg orally or intravenously14 and 7 hours before the start of the paclitaxel infusion).Both diphenhydramine (50 mg) and any histamine H2 antagonistwere administered intravenously 30 minutes before the paclitaxelinfusion.
Treatments were randomly assigned by the Statistical Officeof the Gynecologic Oncology Group, with equal probability afterstratification according to institution and the clinical measurabilityof disease. Women with clinically measurable disease formedthe basis of the determination of the clinical response. Thosewithout measurable disease and those with measurable diseaseand complete clinical responses at the end of their assignedtreatment were required to have a reassessment laparotomy todetermine the pathological response.
All adverse effects were graded according to the toxicity criteriaof the Gynecologic Oncology Group.14 The women had to have awhite-cell count of at least 3000 per cubic millimeter and aplatelet count of at least 100,000 per cubic millimeter beforethe next course could be administered. Courses were delayedweek by week until these counts were achieved. If this delayexceeded three weeks, the woman was withdrawn from the study.No delay in the subsequent courses was allowed for any gastrointestinaltoxicity, peripheral neurotoxicity of grade 1 or 2, mild renaltoxicity (serum creatinine level of <2 mg per deciliter [177µmol per liter] or creatinine clearance of >50 ml perminute), or mild ototoxicity (a reduction of <10 dB in high-frequencydiscrimination). More severe neurologic, otic, or renal toxiceffects that had not resolved by the time of the next scheduleddose required withdrawal of the woman from the study but withcontinued follow-up. Cardiac toxic effects (except asymptomaticsinus bradycardia) were reported to the study chairman and wereconsidered a cause for discontinuing therapy. A severe allergicreaction (bronchospasm, hypotension, or diffuse urticaria) duringthe infusion of paclitaxel was an indication for immediate discontinuationof the infusion and withdrawal of the woman from study treatment.Dose reductions of cyclophosphamide or paclitaxel (no reductionin the cisplatin dose was allowed) in subsequent courses werebased on nadir counts from the previous course. A nadir hematologictoxicity of grade 4 (characterized by a white-cell count of<1000 per cubic millimeter, an absolute neutrophil countof <500 per cubic millimeter, or a platelet count of <25,000per cubic millimeter) required the reduction of the cyclophosphamidedose to 500 mg per square meter or of the paclitaxel dose to110 mg per square meter in the subsequent course, with reescalationin later cycles if nadir counts were not of grade 4.
The clinical response was assessed only in patients with clinicallymeasurable disease, according to previously defined criteria.15In the women who underwent reassessment laparotomy, a pathologicalresponse was determined and assigned to one of three categories:complete response, partial response with microscopic diseaseonly, and persistent disease. Women who were not surgicallyreassessed because they either had clinically persistent diseaseor had progressed before their second-look laparotomy were classifiedas having persistent disease.
Overall and progression-free survival was measured from thedate of randomization. The duration of survival was measuredup to the date of death or the date of last contact if the womanwas alive at the time of the last contact. The duration of progression-freesurvival was the minimal amount of time until the onset of clinicalprogression, death, or the last contact. All eligible caseswere included in the analysis of survival and progression-freesurvival unless otherwise specified. All causes of death wereused to calculate survival, and the estimates of the cumulativeproportion surviving were based on Kaplan–Meier procedures.16The independence of progression-free survival, overall survival,and randomized treatment was assessed with a two-tailed log-ranktest,17 stratified according to the measurability of disease.Linear proportional-hazards analysis was used to provide estimatesof relative risk adjusted for other pretreatment factors.18Finally, proportional-hazards analysis with an interaction termwas used to assess the homogeneity of the treatment effect acrossprognostic groups.
Only eligible women who received at least one course of treatmentwere included in the assessment of toxicity. One woman receivedno treatment. A Kruskal–Wallis rank test19 adjusted fortied ranks was used to test the independence of the severityof toxicity with regard to the assigned treatment. Pearson'schi-square test20 was used to test the independence of responseand treatment. Twelve women, six in each treatment group, couldonly be partially evaluated and were classified as having noclinical response for the intention-to-treat analysis. Generally,these women received one or two courses of treatment, experiencedtoxic effects, and then received alternative therapy or refusedany further treatment before having any objective response.
Results
Characteristics of the Patients
Four hundred ten women with epithelial ovarian cancer enteredthe trial. Twenty-four women were ineligible — 3 becausetheir cancer was of an inappropriate stage, 13 because theyhad the wrong primary tumor, 3 because they had the wrong celltype, 4 because they had a history of cancer, and 1 becauseshe had had the wrong kind of surgery. The remaining 386 eligiblewomen were randomly assigned to either the cisplatin–cyclophosphamidegroup or the cisplatin–paclitaxel group. The two groupswere balanced for several prognostic factors (Table 1).
Table 1. Patients' Characteristics According to Treatment Group.
Dose Delivered and Drug Tolerance
The planned total dose of cisplatin was the same (450 mg persquare meter) for both treatment groups. The 25th, 50th, and75th percentiles of the actual cisplatin dose delivered were410, 442, and 450 mg per square meter, respectively, for thewomen in the cisplatin–cyclophosphamide group and 425,441, and 449 mg per square meter, respectively, for those inthe cisplatin–paclitaxel group. There was no differencebetween the groups in the total delivered dose of cisplatin.
Table 2 shows the number of women treated at each cycle of treatmentand the interval between consecutive cycles. More women completedthe paclitaxel-based regimen (160 of 184 [87 percent]) thanthe standard (cisplatin–cyclophosphamide) regimen (158of 202 [78 percent]). Twenty-three women (11 percent) in thestandard-regimen group and nine (5 percent) in the paclitaxelgroup did not complete all six cycles of therapy because ofdisease progression or death. Twenty-one women in the standard-regimengroup (10 percent) and 15 in the paclitaxel group (8 percent)did not complete six cycles of therapy, either because of toxicityor because they declined to do so.
Table 2. Number of Courses Completed and Timing, According to Treatment Group.
Toxicity
The frequency of adverse effects for the 385 eligible womenwho received at least one course of treatment is shown in Table 3.The severity of neutropenia, febrile neutropenia, alopecia,and peripheral neurotoxicity was significantly different inthe two treatment groups (P0.05), with more toxicity in thecisplatin–paclitaxel group. Although neutropenia of grade3 or 4 developed in the majority of women in the cisplatin–paclitaxelgroup, the incidence of febrile neutropenia was low and wasconsistent with the brevity of paclitaxel-induced myelosuppression.Peripheral neurotoxicity was more common in the paclitaxel groupbut overall was very mild. In 10 women death was at least partlyattributed to treatment — 6 in the cisplatin–cyclophosphamidegroup and 4 in the cisplatin–paclitaxel group. Since bradyarrhythmiaswith atrioventricular block and ventricular irritability havebeen reported in patients receiving paclitaxel therapy,21 theinitial phase of this study required all women in the cisplatin–paclitaxelgroup to undergo cardiac monitoring. However, only seven womenin the paclitaxel group had cardiac episodes of grade 2 or higher,such as first-degree heart block or ischemic events withoutother symptoms and without infarction. Therefore, the requirementof cardiac monitoring was suspended near the end of the study.
Table 3. Occurrence of Adverse Effects According to Severity and Treatment Group.
Response
Response was assessed in the 216 women who entered the studywith clinically measurable disease (Table 4). The overall responserate in the cisplatin–cyclophosphamide group was 60 percent,and it was 73 percent in the cisplatin–paclitaxel group.Complete clinical responses were more frequent among women treatedwith cisplatin and paclitaxel (51 percent) than among thosetreated with cisplatin and cyclophosphamide (31 percent) (P= 0.01, 22).
Table 4. Clinical Response According to Treatment Group.
Women who had complete clinical responses or who did not havemeasurable disease on entering the study and had not had intervalprogression were required by the protocol to undergo a reassessmentlaparotomy. Of the 386 women, 48 (24 in each treatment group)did not undergo the procedure because of refusal or contraindication(Table 5). There was no significant difference in the proportionof negative reassessment laparotomies between the two treatmentgroups (20 percent vs. 26 percent).
Table 5. Results of Reassessment Laparotomy According to Treatment Group.
Figure 1 and Figure 2 show the progression-free and overallsurvival curves for all the eligible women. The median durationof follow-up for women alive at last contact was 37 months (range,5 to 56). There was a statistically significant difference betweenthe treatment groups in both these comparisons. The median progression-freesurvival in the cisplatin–cyclophosphamide group was 13months (95 percent confidence interval, 11 to 15); in the cisplatin–paclitaxelgroup it was 18 months (95 percent confidence interval, 16 to21) (relative risk, 0.7; 95 percent confidence interval, 0.5to 0.8; P<0.001). The median survival of women treated withcisplatin and cyclophosphamide was 24 months (95 percent confidenceinterval, 21 to 30), and for women treated with cisplatin andpaclitaxel it was 38 months (95 percent confidence interval,32 to 44) (relative risk, 0.6; 95 percent confidence interval,0.5 to 0.8; P<0.001). Including the 24 women who were deemedineligible for this study did not appreciably alter these results.
The overall survival of women with and without clinically measurabledisease in each treatment group and the overall survival accordingto the stage of disease were also assessed (data not shown).There was no evidence that the combination of cisplatin andpaclitaxel was less effective than cisplatin and cyclophosphamidewithin those prognostic groupings.
Previous studies conducted by the Gynecologic Oncology Groupthat included women with incompletely resected stage III orIV disease suggested that those with either mucinous or clear-celladenocarcinoma tended to have a poor prognosis.22 Removal ofsuch cases from the comparison of progression-free survivaland overall survival did not alter the results.
Discussion
The results of this trial provide strong evidence that the cisplatin–paclitaxelregimen we used is more effective than cisplatin and cyclophosphamidefor women with advanced ovarian cancer. There was a good balanceof known prognostic factors between the two treatment groups,and random sampling was unlikely to explain the differencesin survival, progression-free survival, and complete responserate.
The results we obtained are similar to those of the predecessorto this trial — a study that included a similar sampleof women who were treated with similar doses of cisplatin andpaclitaxel.23 It appears that the relative benefit of paclitaxelin our trial was not due to a poorer-than-anticipated outcomeamong the women receiving standard therapy. There is no evidencethat the benefit of cisplatin and paclitaxel was limited towomen with measurable disease or to those with stage III disease.The toxicity of the drugs was clinically manageable.
When an active new drug enters clinical use, its effect on survivalmay be blunted because of the crossover of patients from theold standard to the new drug. There may be a similar but lessprofound effect on progression-free survival when crossoveroccurs before clinical progression — for example, aftera positive reassessment laparotomy. Such a situation occurredwhen cisplatin, already commercially available, was incorporatedinto primary tumor therapy.3 This may explain why the effecton survival was not more profound when cisplatin was first incorporatedinto primary tumor therapy. Crossover may have affected ourtrial, but to a smaller degree than usual, because paclitaxelwas in limited supply during the early accrual phase of thestudy and the women in the cisplatin–cyclophosphamidegroup were often prevented from receiving paclitaxel until afterthey had received third-line or fourth-line therapy.
The results of this study are encouraging, but we are concernedthat variants of the cisplatin–paclitaxel regimen arebeing adopted without proper evaluation. Some clinicians havesubstituted carboplatin for cisplatin, even though the carboplatin–paclitaxelcombination is still in a phase 1 evaluation.24
Of even greater concern to us is the reduction in the lengthof paclitaxel infusion to three hours or less. This practiceis based largely on a trial of paclitaxel alone as second- andthird-line therapy that showed similar efficacy for 3-hour and24-hour infusions and less hematologic toxicity with the shorterinfusion.25 This approach may be preferred by patients and mayhave financial advantages, but the efficacy of a three-hourinfusion of paclitaxel has not been verified. Our concern aboutthis is pertinent because in vitro data show that the durationof exposure to paclitaxel is much more important than the peaklevel of exposure.26
Supported by grants from the National Cancer Institute to theGynecologic Oncology Group Administrative Office (CA 27469)and the Gynecologic Oncology Group Statistical Office (CA 37517).
Source Information
From the Department of Medicine, Emory University, Atlanta (W.P.M.); the Gynecology Service, Department of Surgery, Memorial Sloan-Kettering Cancer Center, and the Department of Obstetrics and Gynecology, Cornell University Medical College, New York (W.J.H.); the Gynecologic Oncology Group Statistical Office, Roswell Park Cancer Institute, Buffalo, N.Y. (M.F.B.); the Division of Gynecologic Oncology, Department of Obstetrics and Gynecology, Oregon Health Sciences University, Portland (P.R.K.); the Department of Obstetrics and Gynecology, Division of Gynecologic Oncology, University of Alabama at Birmingham, Birmingham (E.E.P.); the Division of Obstetrics and Gynecology, Indiana University School of Medicine, Indianapolis (K.Y.L.); the Division of Gynecologic Oncology, Department of Obstetrics and Gynecology, Duke University School of Medicine, Durham, N.C. (D.L.C.-P.); and the Department of Pathology and Area Laboratory Sciences, Walter Reed Army Medical Center, Washington, D.C. (M.D.).
Address reprint requests to Dr. McGuire at the GOG Administrative Office, Suite 1945, 1234 Market St., Philadelphia, PA 19107.
References
Williams CJ, Mead GM, Macbeth FR, et al. Cisplatin combination chemotherapy versus chlorambucil in advanced ovarian carcinoma: mature results of a randomized trial. J Clin Oncol 1985;3:1455-1462. [Free Full Text]
Neijt JP, ten Bokkel Huinink WW, van der Burg ME, et al. Randomised trial comparing two combination chemotherapy regimens (Hexa-CAF vs CHAP-5) in advanced ovarian carcinoma. Lancet 1984;2:594-600. [CrossRef][Medline]
Omura GA, Blessing JA, Ehrlich CE, et al. A randomized trial of cyclophosphamide and doxorubicin with or without cisplatin in advanced ovarian carcinoma: a Gynecologic Oncology Group study. Cancer 1986;57:1725-1730. [CrossRef][Medline]
Advanced Ovarian Cancer Trialists Group. Chemotherapy in advanced ovarian cancer: an overview of randomised clinical trials. BMJ 1991;303:884-893.
Thigpen JT, Blessing JA, Vance RB, Lambuth BW. Chemotherapy in ovarian carcinoma: present role and future prospects. Semin Oncol 1989;16:58-65. [Medline]
GICOG (Gruppo Interregionale Cooperativo Oncologico Gynecologica). Long-term results of a randomized trial comparing cisplatin with cisplatin and cyclophosphamide with cisplatin, cyclophosphamide, and adriamycin in advanced ovarian cancer. Gynecol Oncol 1992;45:115-117. [Medline]
Williams CJ, Stewart L, Parmar M, Guthrie D. Meta-analysis of the role of platinum compounds in advanced ovarian carcinoma: the Advanced Ovarian Cancer Trialists Group. Semin Oncol 1992;19:Suppl 2:120-128. [Medline]
McGuire WP, Rowinsky EK, Rosenshein NB, et al. Taxol: a unique antineoplastic agent with significant activity in advanced ovarian epithelial neoplasms. Ann Intern Med 1989;111:273-279.
Thigpen JT, Blessing JA, Ball H, Hummel SJ, Barrett RJ. Phase II trial of paclitaxel in patients with progressive ovarian carcinoma after platinum-based chemotherapy: a Gynecologic Oncology Group study. J Clin Oncol 1994;12:1748-1753. [Free Full Text]
Rowinsky EK, Gilbert MR, McGuire WP, et al. Sequences of taxol and cisplatin: a phase I and pharmacologic study. J Clin Oncol 1991;9:1691-1703.
McGuire WP. Taxol: a new drug with significant activity as a salvage therapy in advanced epithelial ovarian carcinoma. Gynecol Oncol 1993;51:78-85. [CrossRef][Medline]
Rowinsky EK, Donehower RC. Paclitaxel (Taxol). N Engl J Med 1995;332:1004-1014. [Free Full Text]
Blessing JA. Design, analysis and interpretation of chemotherapy trials in gynecologic cancer. In: Deppe G, ed. Chemotherapy of gynecologic cancer. 2nd ed. New York: Wiley–Liss, 1990:63-97.
WHO handbook for reporting results of cancer treatment. Geneva: World Health Organization, 1979.
Kaplan EL, Meier P. Nonparametric estimation from incomplete observations. J Am Stat Assoc 1958;53:457-81.
Mantel N. Evaluation of survival data and two new rank order statistics arising in its consideration. Cancer Chemother Rep 1966;50:163-170. [Medline]
Cox DR. Regression models and life-tables. J R Stat Soc [B] 1972;34:187-220.
Kruskal WH, Wallis WA. Use of ranks in one-criterion variance analysis. J Am Stat Assoc 1952;47:583-621.
Agresti A. Categorical data analysis. New York: John Wiley, 1990.
Rowinsky EK, McGuire WP, Guarnieri T, Fisherman JS, Christian MC, Donehower RC. Cardiac disturbances during the administration of taxol. J Clin Oncol 1991;9:1704-1712. [Abstract]
Omura GA, Brady MF, Homesley HD, et al. Long-term follow-up and prognostic factor analysis in advanced ovarian carcinoma: the Gynecologic Oncology Group experience. J Clin Oncol 1991;9:1138-1150. [Abstract]
McGuire WP, Hoskins WJ, Brady MF, et al. An assessment of dose-intensive therapy in suboptimally debulked ovarian cancer: a Gynecologic Oncology Group study. J Clin Oncol 1995;13:1589-1599. [Free Full Text]
Bookman MA, McGuire WP, Kilpatrick E, et al. Phase I Gynecologic Oncology Group (GOG) study of 3-h and 24-h paclitaxel with carboplatin as initial therapy for advanced epithelial ovarian cancer (OvCA). J Clin Oncol (in press).
Eisenhauer EA, ten Bokkel Huinink WW, Swenerton KD, et al. European-Canadian randomized trial of paclitaxel in relapsed ovarian cancer: high-dose versus low-dose and long versus short infusion. J Clin Oncol 1994;12:2654-2666. [Free Full Text]
Liebmann JE, Cook JA, Lipschultz C, Teague D, Fisher J, Mitchell JB. Cytotoxic studies of paclitaxel (Taxol) in human tumour cell lines. Br J Cancer 1993;68:1104-1109. [Medline]
Appendix
The following Gynecologic Oncology Group institutions participatedin this study: Oregon Health Sciences Center, Johns HopkinsOncology Center, University of Alabama at Birmingham, Duke UniversityMedical Center, Colorado Foundation for Medical Care, BowmanGray School of Medicine of Wake Forest University, Temple UniversityHealth Science Center Hospital, University of Minnesota MedicalSchool, University of Mississippi Medical Center, Universityof California Medical Center at Irvine, Walter Reed Army MedicalCenter, University of Iowa Hospitals and Clinics, Universityof Kentucky, Pennsylvania Hospital, Washington University Schoolof Medicine, Cooper Hospital University Medical Center, ClevelandClinic Foundation, University of Texas, M.D. Anderson CancerCenter, Georgetown University Hospital, University of RochesterMedical Center, University of Southern California Medical Centerat Los Angeles, Tufts–New England Medical Center, ColumbusCancer Council, University of Cincinnati College of Medicine,Albany Medical College of Union University, Illinois CancerCouncil, Wayne State University School of Medicine, Milton S.Hershey School of Medicine of Pennsylvania State University,University of California Medical Center at Los Angeles, Universityof North Carolina School of Medicine, University of MassachusettsMedical Center, Medical University of South Carolina, Women'sCancer Center of Northern California, University of OklahomaHealth Science Center, Fox Chase Cancer Center, University ofMiami School of Medicine, University of Texas Health ScienceCenter at Dallas, State University of New York Downstate MedicalCenter, Eastern Virginia Medical School, and State Universityof New York at Stony Brook.
Chemotherapy for Ovarian Cancer
Parmar M. K.B., Sandercock J., Cvitkovic E., Misset J.-L., Lacave A. J., Peláez I., Palacio I., McGuire W.P., Hoskins W.J., Brady M.F.
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N Engl J Med 1996;
334:1268-1270, May 9, 1996.
Correspondence
BRCA1 Mutations and Survival in Women with Ovarian Cancer
Cannistra S. A., Whitmore S. E., Burk R. D., Modan B., Johannsson O., Ranstam J., Borg A., Olsson H., Brunet J.-S., Narod S. A., Tonin P., Foulkes W. D., Rubin S. C.
Extract |
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N Engl J Med 1997;
336:1254-1257, Apr 24, 1997.
Correspondence
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29: 745-751
[Abstract][Full Text]
Matsumura, N., Huang, Z., Baba, T., Lee, P. S., Barnett, J. C., Mori, S., Chang, J. T., Kuo, W.-L., Gusberg, A. H., Whitaker, R. S., Gray, J. W., Fujii, S., Berchuck, A., Murphy, S. K.
(2009). Yin Yang 1 Modulates Taxane Response in Epithelial Ovarian Cancer. Mol Cancer Res
7: 210-220
[Abstract][Full Text]
Berek, J., Taylor, P., McGuire, W., Smith, L. M., Schultes, B., Nicodemus, C. F.
(2009). Oregovomab Maintenance Monoimmunotherapy Does Not Improve Outcomes in Advanced Ovarian Cancer. JCO
27: 418-425
[Abstract][Full Text]
Yamada, D.
(2009). The Role of Surgery in Ovarian Cancer Management. Am Soc Clin Oncol Ed Book
2009: 302-307
[Abstract][Full Text]
Walker, J. L.
(2009). Intraperitoneal Chemotherapy for Epithelial Ovarian Cancer. Am Soc Clin Oncol Ed Book
2009: 308-312
[Abstract][Full Text]
Havrilesky, L. J., Alvarez Secord, A., Darcy, K. M., Armstrong, D. K., Kulasingam, S.
(2008). Cost Effectiveness of Intraperitoneal Compared With Intravenous Chemotherapy for Women With Optimally Resected Stage III Ovarian Cancer: A Gynecologic Oncology Group Study. JCO
26: 4144-4150
[Abstract][Full Text]
Hwang, J. Y., Mangala, L. S., Fok, J. Y., Lin, Y. G., Merritt, W. M., Spannuth, W. A., Nick, A. M., Fiterman, D. J., Vivas-Mejia, P. E., Deavers, M. T., Coleman, R. L., Lopez-Berestein, G., Mehta, K., Sood, A. K.
(2008). Clinical and Biological Significance of Tissue Transglutaminase in Ovarian Carcinoma. Cancer Res.
68: 5849-5858
[Abstract][Full Text]
Swart, A. M. C., Burdett, S., Ledermann, J., Mook, P., Parmar, M. K. B.
(2008). Why i.p. therapy cannot yet be considered as a standard of care for the first-line treatment of ovarian cancer: a systematic review. Ann Oncol
19: 688-695
[Abstract][Full Text]
Rocconi, R. P., Kirby, T. O., Seitz, R. S., Beck, R., Straughn, J. M. Jr, Alvarez, R. D., Huh, W. K.
(2008). Lipoxygenase Pathway Receptor Expression in Ovarian Cancer. Reproductive Sciences
15: 321-326
[Abstract]
Takei, Y., Saga, Y., Mizukami, H., Takayama, T., Ohwada, M., Ozawa, K., Suzuki, M.
(2008). Overexpression of PTEN in ovarian cancer cells suppresses i.p. dissemination and extends survival in mice. Molecular Cancer Therapeutics
7: 704-711
[Abstract][Full Text]
Ferrandina, G., Ludovisi, M., Lorusso, D., Pignata, S., Breda, E., Savarese, A., Del Medico, P., Scaltriti, L., Katsaros, D., Priolo, D., Scambia, G.
(2008). Phase III Trial of Gemcitabine Compared With Pegylated Liposomal Doxorubicin in Progressive or Recurrent Ovarian Cancer. JCO
26: 890-896
[Abstract][Full Text]
Garcia, A. A., Hirte, H., Fleming, G., Yang, D., Tsao-Wei, D. D., Roman, L., Groshen, S., Swenson, S., Markland, F., Gandara, D., Scudder, S., Morgan, R., Chen, H., Lenz, H.-J., Oza, A. M.
(2008). Phase II Clinical Trial of Bevacizumab and Low-Dose Metronomic Oral Cyclophosphamide in Recurrent Ovarian Cancer: A Trial of the California, Chicago, and Princess Margaret Hospital Phase II Consortia. JCO
26: 76-82
[Abstract][Full Text]
Winter, W. E. III, Maxwell, G. L., Tian, C., Sundborg, M. J., Rose, G. S., Rose, P. G., Rubin, S. C., Muggia, F., McGuire, W. P.
(2008). Tumor Residual After Surgical Cytoreduction in Prediction of Clinical Outcome in Stage IV Epithelial Ovarian Cancer: A Gynecologic Oncology Group Study. JCO
26: 83-89
[Abstract][Full Text]
Bijelic, L., Jonson, A., Sugarbaker, P. H.
(2007). Systematic review of cytoreductive surgery and heated intraoperative intraperitoneal chemotherapy for treatment of peritoneal carcinomatosis in primary and recurrent ovarian cancer. Ann Oncol
18: 1943-1950
[Abstract][Full Text]
Smith, S., Su, D., Rigault de la Longrais, I. A., Schwartz, P., Puopolo, M., Rutherford, T. J., Mor, G., Yu, H., Katsaros, D.
(2007). ERCC1 Genotype and Phenotype in Epithelial Ovarian Cancer Identify Patients Likely to Benefit From Paclitaxel Treatment in Addition to Platinum-Based Therapy. JCO
25: 5172-5179
[Abstract][Full Text]
Halder, J., Lin, Y. G., Merritt, W. M., Spannuth, W. A., Nick, A. M., Honda, T., Kamat, A. A., Han, L. Y., Kim, T. J., Lu, C., Tari, A. M., Bornmann, W., Fernandez, A., Lopez-Berestein, G., Sood, A. K.
(2007). Therapeutic Efficacy of a Novel Focal Adhesion Kinase Inhibitor TAE226 in Ovarian Carcinoma. Cancer Res.
67: 10976-10983
[Abstract][Full Text]
Ali, S N., Ledermann, J. A
(2007). Current practice and new developments in ovarian cancer chemotherapy. The Obstetrician and Gynaecologist
9: 265-269
[Abstract][Full Text]
Spriggs, D. R., Brady, M. F., Vaccarello, L., Clarke-Pearson, D. L., Burger, R. A., Mannel, R., Boggess, J. F., Lee, R. B., Hanly, M.
(2007). Phase III Randomized Trial of Intravenous Cisplatin Plus a 24- or 96-Hour Infusion of Paclitaxel in Epithelial Ovarian Cancer: A Gynecologic Oncology Group Study. JCO
25: 4466-4471
[Abstract][Full Text]
Mobus, V., Wandt, H., Frickhofen, N., Bengala, C., Champion, K., Kimmig, R., Ostermann, H., Hinke, A., Ledermann, J. A.
(2007). Phase III Trial of High-Dose Sequential Chemotherapy With Peripheral Blood Stem Cell Support Compared With Standard Dose Chemotherapy for First-Line Treatment of Advanced Ovarian Cancer: Intergroup Trial of the AGO-Ovar/AIO and EBMT. JCO
25: 4187-4193
[Abstract][Full Text]
Markman, M.
(2007). Concept of Optimal Surgical Cytoreduction in Advanced Ovarian Cancer: A Brief Critique and a Call for Action. JCO
25: 4168-4170
[Full Text]
Winter, W. E. III, Maxwell, G. L., Tian, C., Carlson, J. W., Ozols, R. F., Rose, P. G., Markman, M., Armstrong, D. K., Muggia, F., McGuire, W. P.
(2007). Prognostic Factors for Stage III Epithelial Ovarian Cancer: A Gynecologic Oncology Group Study. JCO
25: 3621-3627
[Abstract][Full Text]
Cannistra, S. A., McGuire, W. P.
(2007). Progress in the Management of Gynecologic Cancer. JCO
25: 2865-2866
[Full Text]
Burger, R. A.
(2007). Experience With Bevacizumab in the Management of Epithelial Ovarian Cancer. JCO
25: 2902-2908
[Abstract][Full Text]
Smyth, J. F., Gourley, C., Walker, G., MacKean, M. J., Stevenson, A., Williams, A. R.W., Nafussi, A. A., Rye, T., Rye, R., Stewart, M., McCurdy, J., Mano, M., Reed, N., McMahon, T., Vasey, P., Gabra, H., Langdon, S. P.
(2007). Antiestrogen Therapy Is Active in Selected Ovarian Cancer Cases: The Use of Letrozole in Estrogen Receptor-Positive Patients. Clin. Cancer Res.
13: 3617-3622
[Abstract][Full Text]
Birrer, M. J., Johnson, M. E., Hao, K., Wong, K.-K., Park, D.-C., Bell, A., Welch, W. R., Berkowitz, R. S., Mok, S. C.
(2007). Whole Genome Oligonucleotide-Based Array Comparative Genomic Hybridization Analysis Identified Fibroblast Growth Factor 1 As a Prognostic Marker for Advanced-Stage Serous Ovarian Adenocarcinomas. JCO
25: 2281-2287
[Abstract][Full Text]
Aletti, G. D., Gallenberg, M. M., Cliby, W. A., Jatoi, A., Hartmann, L. C.
(2007). Current Management Strategies for Ovarian Cancer. Mayo Clin Proc.
82: 751-770
[Abstract][Full Text]
Darcy, K. M., Tian, C., Reed, E.
(2007). A Gynecologic Oncology Group Study of Platinum-DNA Adducts and Excision Repair Cross-Complementation Group 1 Expression in Optimal, Stage III Epithelial Ovarian Cancer Treated with Platinum-Taxane Chemotherapy. Cancer Res.
67: 4474-4481
[Abstract][Full Text]
Silber, J. H., Rosenbaum, P. R., Polsky, D., Ross, R. N., Even-Shoshan, O., Schwartz, J. S., Armstrong, K. A., Randall, T. C.
(2007). Does Ovarian Cancer Treatment and Survival Differ by the Specialty Providing Chemotherapy?. JCO
25: 1169-1175
[Abstract][Full Text]
Yokoyama, Y., Xin, B., Shigeto, T., Umemoto, M., Kasai-Sakamoto, A., Futagami, M., Tsuchida, S., Al-Mulla, F., Mizunuma, H.
(2007). Clofibric acid, a peroxisome proliferator-activated receptor {alpha} ligand, inhibits growth of human ovarian cancer. Molecular Cancer Therapeutics
6: 1379-1386
[Abstract][Full Text]
Dressman, H. K., Berchuck, A., Chan, G., Zhai, J., Bild, A., Sayer, R., Cragun, J., Clarke, J., Whitaker, R. S., Li, L., Gray, J., Marks, J., Ginsburg, G. S., Potti, A., West, M., Nevins, J. R., Lancaster, J. M.
(2007). An Integrated Genomic-Based Approach to Individualized Treatment of Patients With Advanced-Stage Ovarian Cancer. JCO
25: 517-525
[Abstract][Full Text]
Axtell, A. E., Lee, M. H., Bristow, R. E., Dowdy, S. C., Cliby, W. A., Raman, S., Weaver, J. P., Gabbay, M., Ngo, M., Lentz, S., Cass, I., Li, A. J., Karlan, B. Y., Holschneider, C. H.
(2007). Multi-Institutional Reciprocal Validation Study of Computed Tomography Predictors of Suboptimal Primary Cytoreduction in Patients With Advanced Ovarian Cancer. JCO
25: 384-389
[Abstract][Full Text]
Wenzel, L. B., Huang, H. Q., Armstrong, D. K., Walker, J. L., Cella, D.
(2007). Health-Related Quality of Life During and After Intraperitoneal Versus Intravenous Chemotherapy for Optimally Debulked Ovarian Cancer: A Gynecologic Oncology Group Study. JCO
25: 437-443
[Abstract][Full Text]
Ferrero, J-M, Weber, B, Geay, J-F, Lepille, D, Orfeuvre, H, Combe, M, Mayer, F, Leduc, B, Bourgeois, H, Paraiso, D, Pujade-Lauraine, E
(2007). Second-line chemotherapy with pegylated liposomal doxorubicin and carboplatin is highly effective in patients with advanced ovarian cancer in late relapse: a GINECO phase II trial. Ann Oncol
18: 263-268
[Abstract][Full Text]
Markman, M.
(2007). New, Expanded, and Modified Use of Approved Antineoplastic Agents in Ovarian Cancer. The Oncologist
12: 186-190
[Abstract][Full Text]
Reeves, G. V., Kraemer, R. R., Hollander, D. B., Clavier, J., Thomas, C., Francois, M., Castracane, V. D.
(2006). Comparison of hormone responses following light resistance exercise with partial vascular occlusion and moderately difficult resistance exercise without occlusion. J. Appl. Physiol.
101: 1616-1622
[Abstract][Full Text]
Kyrgiou, M., Salanti, G., Pavlidis, N., Paraskevaidis, E., Ioannidis, J. P. A.
(2006). Survival Benefits With Diverse Chemotherapy Regimens for Ovarian Cancer: Meta-analysis of Multiple Treatments.. JNCI J Natl Cancer Inst
98: 1655-1663
[Abstract][Full Text]
Pectasides, D., Pectasides, E., Psyrri, A., Economopoulos, T.
(2006). Treatment Issues in Clear Cell Carcinoma of the Ovary: A Different Entity?. The Oncologist
11: 1089-1094
[Abstract][Full Text]
Leyton, J., Lockley, M., Aerts, J. L., Baird, S. K., Aboagye, E. O., Lemoine, N. R., McNeish, I. A.
(2006). Quantifying the Activity of Adenoviral E1A CR2 Deletion Mutants Using Renilla Luciferase Bioluminescence and 3'-Deoxy-3'-[18F]Fluorothymidine Positron Emission Tomography Imaging.. Cancer Res.
66: 9178-9185
[Abstract][Full Text]
Halder, J., Kamat, A. A., Landen, C. N. Jr., Han, L. Y., Lutgendorf, S. K., Lin, Y. G., Merritt, W. M., Jennings, N. B., Chavez-Reyes, A., Coleman, R. L., Gershenson, D. M., Schmandt, R., Cole, S. W., Lopez-Berestein, G., Sood, A. K.
(2006). Focal Adhesion Kinase Targeting Using In vivo Short Interfering RNA Delivery in Neutral Liposomes for Ovarian Carcinoma Therapy.. Clin. Cancer Res.
12: 4916-4924
[Abstract][Full Text]
McGuire, W. P.
(2006). Is it time for some new approaches for treating advanced ovarian cancer?. JNCI J Natl Cancer Inst
98: 1024-1026
[Full Text]
Pfisterer, J., Weber, B., Reuss, A., Kimmig, R., du Bois, A., Wagner, U., Bourgeois, H., Meier, W., Costa, S., Blohmer, J.-U., Lortholary, A., Olbricht, S., Stahle, A., Jackisch, C., Hardy-Bessard, A.-C., Mobus, V., Quaas, J., Richter, B., Schroder, W., Geay, J.-F., Luck, H.-J., Kuhn, W., Meden, H., Nitz, U., Pujade-Lauraine, E.
(2006). Randomized phase III trial of topotecan following carboplatin and paclitaxel in first-line treatment of advanced ovarian cancer: a gynecologic cancer intergroup trial of the AGO-OVAR and GINECO.. JNCI J Natl Cancer Inst
98: 1036-1045
[Abstract][Full Text]
Buchholz, S., Keller, G., Schally, A. V., Halmos, G., Hohla, F., Heinrich, E., Koester, F., Baker, B., Engel, J. B.
(2006). Therapy of ovarian cancers with targeted cytotoxic analogs of bombesin, somatostatin, and luteinizing hormone-releasing hormone and their combinations. Proc. Natl. Acad. Sci. USA
103: 10403-10407
[Abstract][Full Text]
Hamm, W.
(2006). Pegylated Liposomal Doxorubicin Consolidation Therapy. The Oncologist
11: 855-855
[Full Text]
Krasner, C. N., Roche, M., Horowitz, N. S., Supko, J. G., Lee, S. I., Oliva, E.
(2006). Case 11-2006 -- A 54-Year-Old Woman with a Mass in the Pelvis. NEJM
354: 1615-1625
[Full Text]
Rocconi, R. P., Straughn, J. M. Jr., Leath, C. A. III, Kilgore, L. C., Huh, W. K., Barnes, M. N. III, Partridge, E. E., Alvarez, R. D.
(2006). Pegylated liposomal Doxorubicin consolidation therapy after platinum/paclitaxel-based chemotherapy for suboptimally debulked, advanced-stage epithelial ovarian cancer patients.. The Oncologist
11: 336-341
[Abstract][Full Text]
du Bois, A., Weber, B., Rochon, J., Meier, W., Goupil, A., Olbricht, S., Barats, J.-C., Kuhn, W., Orfeuvre, H., Wagner, U., Richter, B., Lueck, H.-J., Pfisterer, J., Costa, S., Schroeder, W., Kimmig, R., Pujade-Lauraine, E.
(2006). Addition of Epirubicin As a Third Drug to Carboplatin-Paclitaxel in First-Line Treatment of Advanced Ovarian Cancer: A Prospectively Randomized Gynecologic Cancer Intergroup Trial by the Arbeitsgemeinschaft Gynaekologische Onkologie Ovarian Cancer Study Group and the Groupe d'Investigateurs Nationaux pour l'Etude des Cancers Ovariens. JCO
24: 1127-1135
[Abstract][Full Text]
Viens, P., Petit, T., Yovine, A., Bougnoux, P., Deplanque, G., Cottu, P.-H., Delva, R., Lotz, J.-P., Belle, S. V., Extra, J.-M., Cvitkovic, E.
(2006). A phase II study of a paclitaxel and oxaliplatin combination in platinum-sensitive recurrent advanced ovarian cancer patients. Ann Oncol
17: 429-436
[Abstract][Full Text]
Komatsu, M., Hiyama, K., Tanimoto, K., Yunokawa, M., Otani, K., Ohtaki, M., Hiyama, E., Kigawa, J., Ohwada, M., Suzuki, M., Nagai, N., Kudo, Y., Nishiyama, M.
(2006). Prediction of individual response to platinum/paclitaxel combination using novel marker genes in ovarian cancers.. Molecular Cancer Therapeutics
5: 767-775
[Abstract][Full Text]
Markman, M., Walker, J. L.
(2006). Intraperitoneal Chemotherapy of Ovarian Cancer: A Review, With a Focus on Practical Aspects of Treatment. JCO
24: 988-994
[Full Text]
Greimel, E. R., Bjelic-Radisic, V., Pfisterer, J., Hilpert, F., Daghofer, F., du Bois, A.
(2006). Randomized Study of the Arbeitsgemeinschaft Gynaekologische Onkologie Ovarian Cancer Study Group Comparing Quality of Life in Patients With Ovarian Cancer Treated With Cisplatin/Paclitaxel Versus Carboplatin/Paclitaxel. JCO
24: 579-586
[Abstract][Full Text]
Armstrong, D. K., Bundy, B., Wenzel, L., Huang, H. Q., Baergen, R., Lele, S., Copeland, L. J., Walker, J. L., Burger, R. A., the Gynecologic Oncology Group,
(2006). Intraperitoneal Cisplatin and Paclitaxel in Ovarian Cancer. NEJM
354: 34-43
[Abstract][Full Text]
Huang, G. S., Lopez-Barcons, L., Freeze, B. S., Smith, A. B. III, Goldberg, G. L., Horwitz, S. B., McDaid, H. M.
(2006). Potentiation of Taxol Efficacy by Discodermolide in Ovarian Carcinoma Xenograft-Bearing Mice. Clin. Cancer Res.
12: 298-304
[Abstract][Full Text]
Halder, J., Landen, C. N. Jr., Lutgendorf, S. K., Li, Y., Jennings, N. B., Fan, D., Nelkin, G. M., Schmandt, R., Schaller, M. D., Sood, A. K.
(2005). Focal Adhesion Kinase Silencing Augments Docetaxel-Mediated Apoptosis in Ovarian Cancer Cells. Clin. Cancer Res.
11: 8829-8836
[Abstract][Full Text]
Fujita, T., Ito, K.-i., Izumi, H., Kimura, M., Sano, M., Nakagomi, H., Maeno, K., Hama, Y., Shingu, K., Tsuchiya, S.-i., Kohno, K., Fujimori, M.
(2005). Increased Nuclear Localization of Transcription Factor Y-Box Binding Protein 1 Accompanied by Up-Regulation of P-glycoprotein in Breast Cancer Pretreated with Paclitaxel. Clin. Cancer Res.
11: 8837-8844
[Abstract][Full Text]
Freyer, G., Geay, J.-F., Touzet, S., Provencal, J., Weber, B., Jacquin, J.-P., Ganem, G., Tubiana-Mathieu, N., Gisserot, O., Pujade-Lauraine, E., for the Groupe d'Investigateurs Nationaux pour l'E,
(2005). Comprehensive geriatric assessment predicts tolerance to chemotherapy and survival in elderly patients with advanced ovarian carcinoma: a GINECO study. Ann Oncol
16: 1795-1800
[Abstract][Full Text]
Edwards, B. K., Brown, M. L., Wingo, P. A., Howe, H. L., Ward, E., Ries, L. A. G., Schrag, D., Jamison, P. M., Jemal, A., Wu, X. C., Friedman, C., Harlan, L., Warren, J., Anderson, R. N., Pickle, L. W.
(2005). Annual Report to the Nation on the Status of Cancer, 1975-2002, Featuring Population-Based Trends in Cancer Treatment. JNCI J Natl Cancer Inst
97: 1407-1427
[Abstract][Full Text]
Kaiser, P. C., Korner, M., Kappeler, A., Aebi, S.
(2005). Retinoid receptors in ovarian cancer: expression and prognosis. Ann Oncol
16: 1477-1487
[Abstract][Full Text]
Wasil, T., Lichtman, S. M.
(2005). Clinical Pharmacology Issues Relevant to the Dosing and Toxicity of Chemotherapy Drugs in the Elderly. The Oncologist
10: 602-612
[Abstract][Full Text]
Wenzel, L., Huang, H. Q., Monk, B. J., Rose, P. G., Cella, D.
(2005). Quality-of-Life Comparisons in a Randomized Trial of Interval Secondary Cytoreduction in Advanced Ovarian Carcinoma: A Gynecologic Oncology Group Study. JCO
23: 5605-5612
[Abstract][Full Text]
Okamoto, A., Nikaido, T., Ochiai, K., Takakura, S., Saito, M., Aoki, Y., Ishii, N., Yanaihara, N., Yamada, K., Takikawa, O., Kawaguchi, R., Isonishi, S., Tanaka, T., Urashima, M.
(2005). Indoleamine 2,3-Dioxygenase Serves as a Marker of Poor Prognosis in Gene Expression Profiles of Serous Ovarian Cancer Cells. Clin. Cancer Res.
11: 6030-6039
[Abstract][Full Text]
Peters, D. G., Kudla, D. M., DeLoia, J. A., Chu, T. J., Fairfull, L., Edwards, R. P., Ferrell, R. E.
(2005). Comparative Gene Expression Analysis of Ovarian Carcinoma and Normal Ovarian Epithelium by Serial Analysis of Gene Expression. Cancer Epidemiol. Biomarkers Prev.
14: 1717-1723
[Abstract][Full Text]
Aravantinos, G., Fountzilas, G., Kosmidis, P., Dimopoulos, M. A., Stathopoulos, G. P., Pavlidis, N., Bafaloukos, D., Papadimitriou, C., Karpathios, S., Georgoulias, V., Papakostas, P., Kalofonos, H. P., Grimani, E., Skarlos, D. V.
(2005). Paclitaxel plus carboplatin versus paclitaxel plus alternating carboplatin and cisplatin for initial treatment of advanced ovarian cancer: long-term efficacy results: a Hellenic Cooperative Oncology Group (HeCOG) study. Ann Oncol
16: 1116-1122
[Abstract][Full Text]
Thaker, P. H., Yazici, S., Nilsson, M. B., Yokoi, K., Tsan, R. Z., He, J., Kim, S.-J., Fidler, I. J., Sood, A. K.
(2005). Antivascular Therapy for Orthotopic Human Ovarian Carcinoma through Blockade of the Vascular Endothelial Growth Factor and Epidermal Growth Factor Receptors. Clin. Cancer Res.
11: 4923-4933
[Abstract][Full Text]
Berchuck, A., Iversen, E. S., Lancaster, J. M., Pittman, J., Luo, J., Lee, P., Murphy, S., Dressman, H. K., Febbo, P. G., West, M., Nevins, J. R., Marks, J. R.
(2005). Patterns of Gene Expression That Characterize Long-term Survival in Advanced Stage Serous Ovarian Cancers. Clin. Cancer Res.
11: 3686-3696
[Abstract][Full Text]
Costa, M. A., Simon, D. I.
(2005). Molecular Basis of Restenosis and Drug-Eluting Stents. Circulation
111: 2257-2273
[Full Text]
Hartmann, L. C., Lu, K. H., Linette, G. P., Cliby, W. A., Kalli, K. R., Gershenson, D., Bast, R. C., Stec, J., Iartchouk, N., Smith, D. I., Ross, J. S., Hoersch, S., Shridhar, V., Lillie, J., Kaufmann, S. H., Clark, E. A., Damokosh, A. I.
(2005). Gene Expression Profiles Predict Early Relapse in Ovarian Cancer after Platinum-Paclitaxel Chemotherapy. Clin. Cancer Res.
11: 2149-2155
[Abstract][Full Text]
Engel, J. B., Keller, G., Schally, A. V., Halmos, G., Hammann, B., Nagy, A.
(2005). Effective Inhibition of Experimental Human Ovarian Cancers with a Targeted Cytotoxic Bombesin Analogue AN-215. Clin. Cancer Res.
11: 2408-2415
[Abstract][Full Text]
Katsaros, D., Oletti, M. V., Rigault de la Longrais, I. A., Ferrero, A., Celano, A., Fracchioli, S., Donadio, M., Passera, R., Cattel, L., Bumma, C.
(2005). Clinical and pharmacokinetic phase II study of pegylated liposomal doxorubicin and vinorelbine in heavily pretreated recurrent ovarian carcinoma. Ann Oncol
16: 300-306
[Abstract][Full Text]
Gadducci, A., Sartori, E., Landoni, F., Zola, P., Maggino, T., Maggioni, A., Cosio, S., Frassi, E., LaPresa, M. T., Fuso, L., Cristofani, R.
(2005). Relationship Between Time Interval From Primary Surgery to the Start of Taxane- Plus Platinum-Based Chemotherapy and Clinical Outcome of Patients With Advanced Epithelial Ovarian Cancer: Results of a Multicenter Retrospective Italian Study. JCO
23: 751-758
[Abstract][Full Text]
Chen, T., Pengetnze, Y., Taylor, C. C.
(2005). Src inhibition enhances paclitaxel cytotoxicity in ovarian cancer cells by caspase-9-independent activation of caspase-3. Molecular Cancer Therapeutics
4: 217-224
[Abstract][Full Text]
Hashimoto, K., Morishige, K.-i., Sawada, K., Tahara, M., Kawagishi, R., Ikebuchi, Y., Sakata, M., Tasaka, K., Murata, Y.
(2005). Alendronate Inhibits Intraperitoneal Dissemination in In vivo Ovarian Cancer Model. Cancer Res.
65: 540-545
[Abstract][Full Text]
Rose, P. G., Nerenstone, S., Brady, M. F., Clarke-Pearson, D., Olt, G., Rubin, S. C., Moore, D. H., Small, J. M., the Gynecologic Oncology Group,
(2004). Secondary Surgical Cytoreduction for Advanced Ovarian Carcinoma. NEJM
351: 2489-2497
[Abstract][Full Text]
Cannistra, S. A.
(2004). Cancer of the Ovary. NEJM
351: 2519-2529
[Full Text]
Penson, R. T., Sahani, D., Bell, D. A.
(2004). Case 37-2004 - A 52-Year-Old Woman with Postmenopausal Bleeding and a Cystic Ovarian Mass. NEJM
351: 2531-2538
[Full Text]
Spentzos, D., Levine, D. A., Ramoni, M. F., Joseph, M., Gu, X., Boyd, J., Libermann, Towia. A., Cannistra, S. A.
(2004). Gene Expression Signature With Independent Prognostic Significance in Epithelial Ovarian Cancer. JCO
22: 4700-4710
[Abstract][Full Text]
Vasey, P. A., Jayson, G. C., Gordon, A., Gabra, H., Coleman, R., Atkinson, R., Parkin, D., Paul, J., Hay, A., Kaye, S. B., On behalf of the Scottish Gynaecological Cancer Tr,
(2004). Phase III Randomized Trial of Docetaxel-Carboplatin Versus Paclitaxel-Carboplatin as First-line Chemotherapy for Ovarian Carcinoma. JNCI J Natl Cancer Inst
96: 1682-1691
[Abstract][Full Text]
Sabbatini, P., Aghajanian, C., Dizon, D., Anderson, S., Dupont, J., Brown, J. V., Peters, W. A., Jacobs, A., Mehdi, A., Rivkin, S., Eisenfeld, A. J., Spriggs, D.
(2004). Phase II Study of CT-2103 in Patients With Recurrent Epithelial Ovarian, Fallopian Tube, or Primary Peritoneal Carcinoma. JCO
22: 4523-4531
[Abstract][Full Text]
Bezjak, A., Tu, D., Bacon, M., Osoba, D., Zee, B., Stuart, G., Roy, J.-A., Piccart, M., Eisenhauer, E.
(2004). Quality of Life in Ovarian Cancer Patients: Comparison of Paclitaxel Plus Cisplatin, With Cyclophosphamide Plus Cisplatin in a Randomized Study. JCO
22: 4595-4603
[Abstract][Full Text]
Herzog, T. J.
(2004). Recurrent Ovarian Cancer: How Important Is It to Treat to Disease Progression?. Clin. Cancer Res.
10: 7439-7449
[Abstract][Full Text]
Mabuchi, S., Ohmichi, M., Nishio, Y., Hayasaka, T., Kimura, A., Ohta, T., Kawagoe, J., Takahashi, K., Yada-Hashimoto, N., Seino-Noda, H., Sakata, M., Motoyama, T., Kurachi, H., Testa, J. R., Tasaka, K., Murata, Y.
(2004). Inhibition of Inhibitor of Nuclear Factor-{kappa}B Phosphorylation Increases the Efficacy of Paclitaxel in in Vitro and in Vivo Ovarian Cancer Models. Clin. Cancer Res.
10: 7645-7654
[Abstract][Full Text]
Sironi, S., Messa, C., Mangili, G., Zangheri, B., Aletti, G., Garavaglia, E., Vigano, R., Picchio, M., Taccagni, G., Maschio, A. D., Fazio, F.
(2004). Integrated FDG PET/CT in Patients with Persistent Ovarian Cancer: Correlation with Histologic Findings. Radiology
233: 433-440
[Abstract][Full Text]
Huang, G.-C., Liu, S.-Y., Lin, M.-H., Kuo, Y.-Y., Liu, Y.-C.
(2004). The Synergistic Cytotoxicity of Cisplatin and Taxol in Killing Oral Squamous Cell Carcinoma. Jpn J Clin Oncol
34: 499-504
[Abstract][Full Text]
Onda, T., Katsumata, N., Tsunematsu, R., Yasugi, T., Mushika, M., Yamamoto, K., Fujii, T., Hirakawa, T., Kamura, T., Saito, T., Yoshikawa, H.
(2004). Cisplatin, Paclitaxel and Escalating Doses of Doxorubicin (TAP) in Advanced Ovarian Cancer: a Phase I Trial. Jpn J Clin Oncol
34: 540-546
[Abstract][Full Text]
Berek, J. S., Taylor, P. T., Gordon, A., Cunningham, M. J., Finkler, N., Orr, J. Jr, Rivkin, S., Schultes, B. C., Whiteside, T. L., Nicodemus, C. F.
(2004). Randomized, Placebo-Controlled Study of Oregovomab for Consolidation of Clinical Remission in Patients With Advanced Ovarian Cancer. JCO
22: 3507-3516
[Abstract][Full Text]
Thaker, P. H., Deavers, M., Celestino, J., Thornton, A., Fletcher, M. S., Landen, C. N., Kinch, M. S., Kiener, P. A., Sood, A. K.
(2004). EphA2 Expression Is Associated with Aggressive Features in Ovarian Carcinoma. Clin. Cancer Res.
10: 5145-5150
[Abstract][Full Text]
Cao, Z., Fang, J., Xia, C., Shi, X., Jiang, B.-H.
(2004). trans-3,4,5'-Trihydroxystibene Inhibits Hypoxia-Inducible Factor 1{alpha} and Vascular Endothelial Growth Factor Expression in Human Ovarian Cancer Cells. Clin. Cancer Res.
10: 5253-5263
[Abstract][Full Text]
De Placido, S., Scambia, G., Di Vagno, G., Naglieri, E., Lombardi, A. V., Biamonte, R., Marinaccio, M., Carteni, G., Manzione, L., Febbraro, A., de Matteis, A., Gasparini, G., Valerio, M. R., Danese, S., Perrone, F., Lauria, R., De Laurentiis, M., Greggi, S., Gallo, C., Pignata, S.
(2004). Topotecan Compared With No Therapy After Response to Surgery and Carboplatin/Paclitaxel in Patients With Ovarian Cancer: Multicenter Italian Trials in Ovarian Cancer (MITO-1) Randomized Study. JCO
22: 2635-2642
[Abstract][Full Text]
A correction has been published: N Engl J Med 1996;334(16):1070.
0.05), with more toxicity in the cisplatin–paclitaxel group. Although neutropenia of grade 3 or 4 developed in the majority of women in the cisplatin–paclitaxel group, the incidence of febrile neutropenia was low and was consistent with the brevity of paclitaxel-induced myelosuppression. Peripheral neurotoxicity was more common in the paclitaxel group but overall was very mild. In 10 women death was at least partly attributed to treatment — 6 in the cisplatin–cyclophosphamide group and 4 in the cisplatin–paclitaxel group. Since bradyarrhythmias with atrioventricular block and ventricular irritability have been reported in patients receiving paclitaxel therapy,21 the initial phase of this study required all women in the cisplatin–paclitaxel group to undergo cardiac monitoring. However, only seven women in the paclitaxel group had cardiac episodes of grade 2 or higher, such as first-degree heart block or ischemic events without other symptoms and without infarction. Therefore, the requirement of cardiac monitoring was suspended near the end of the study. 
22). 
