Since June 1978, 57 patients with primary osteogenic sarcoma of an extremity were treated with high-dose methotrexate (HDMTX) and citrovorum factor rescue (CFR), Adriamycin, and the combination of bleomycin, cyclophosphamide and dactinomycin (BCD) given for 4-16 weeks prior to definitive surgery. Histologic examination of the resected primary tumor determined the effect of preoperative chemotherapy with many primary tumors showing greater than 90% tumor necrosis attributable to preoperative chemotherapy. A l l patients having this favorable effect of chemotherapy on the primary tumor were continued on the same chemotherapy regimen postoperatively (regimen B). However, in those patients not having a good effect of preoperative chemotherapy on the primary tumor, H D M T X with CFR was subsequently deleted from their postoperative chemotherapy and they were placed on a regimen containing cisplatinum at the dose of 120mg/M2 with mannitol diuresis combined with Adriamycin i n addition to BCD (regimen A). In the current study, 35 of the 57 patients did not demonstrate a good effect of chemotherapy on the primary tumor and were assigned to regimen A postoperatively. Of these 35 patients, 32 (91%)) have remained continuously free of recurrent or metastatic disease from 6-34 months following the start of therapy. Among the 22 remaining patients having a good histologic response and treated with regimen B postoperatively, there has been only one relapse in a patient who had a local recurrence in the area of an inadequately resected primary tumor three months after the cessation of chemotherapy. Thus, 53 of 57 patients (93%) are continuously with no evidence of recurrent or metastatic disease from 6-35 months (median, 20 months) from the start of treatment. This study demonstrates the value of thorough histologic examination in predicting survival i n responding patients and i n helping identify patients whose disease-free survival rate can be substantially increased if they are given alternative postoperative adjuvant chemotherapy after failing to have a good response to preoperative chemotherapy. This individualized chemotherapeutic strategy has yielded the highest disease free survival raw reported to date for osteogenic sarcoma.
From 1973From -1975 patients with biopsied primary osteogenic sarcoma were treated with preoperative chemotherapy followed by surgical ablation of the primary tumor. Surgery was delayed in order to obtain a custom-fitted prosthetic bone implant in an attempt to avoid amputation. Preoperative chemotherapy included high dose methotrexate (HDMTX) with citrovorum factor rescue (CFR) and adriamycin (T-5 protocol) and was administered for 3 months preoperatively and continued with the inclusion of cyclophosphamide for approximately 5 months postoperatively. At a follow-up period of 30-52 months, 23 of 31 patients (75%) are surviving (21 of 23 with no evidence of disease). Histologic examination of primary tumor removed at surgery revealed varying degrees of tumor destruction (from very little effect to no evidence of viable tumor) attributable to the effect of chemotherapy. The 2 1 patients that are disease-free survivors had a more complete effect of preoperative chemotherapy on the primary tumor. Some patients achieving favorable effects upon the primary tumor did so only after the dose of HDMTX was escalated to greater than the starting dose of 8 g/m2. Preoperative chemotherapy for all patients with osteogenic sarcoma would seem to offer the following advantages: 1) Evaluation of the effect of HDMTX with CFR on the primary tumor with escalation of the dose of HDMTX until a clinical response is observed, thus defining the dose of HDMTX effective in that patient, to be continued postoperatively as adjuvant therapy; 2) The early use of systemic therapy to eradicate distant microfoci of disease that will eventually kill the patient if not adequately treated by effective chemotherapy; 3) Allow more time for postoperative healing without the need to start adjuvant chemotherapy immediately; and 4) Provide the surgeon time to plan resection surgery. To date, 20 additional patients with biopsy proven osteogenic sarcoma have been treated with more aggressive preoperative chemotherapy (T-7) for approximately 2 $4 months prior to definitive surgery (resection or amputation).
Since May 1970, 67 consecutive patients with primary (nonmetastatic) Ewing's sarcoma were treated with adjuvant chemotherapy (CT) in addition to radiation therapy (RT) or surgery for the primary tumor. The first 19 patients were treated with four-drug sequential CT (T-2). The second protocol was a seven-drug induction combination CT (T-6) followed by T-2 maintenance CT; in both protocols CT was continued for 18 months. The current protocol (T-9) consists of combination CT given continuously for a period of 9 months. Of the entire group of 67 patients, 47 (70%) had axial and proximal lesions (pelvis, spine, rib, humerus, and femur) and 20 (30%) had distal lesions (forearm, leg, and foot); 53/67 (79%) are surviving free of disease 12--118 months (median 41 months) from the start of treatment. Fifteen of 23 (65%) patients with axial lesions, 19/24 (79%) patients with proximal lesions, and 19/20 (95%) patients with distal lesions are free of disease. Disease-free survivors include 28/39 (72%) male patients and 25/28 (89%) female patients. Thirty-four patients had RT, and 33 had surgery or surgery and RT, in addition to chemotherapy, for local treatment. The disease-free survival rate was 76% in the RT group and 82% in the surgery group; failure in the RT group was attributable to local recurrence in 7/34 (21%) patients. Recent experience with T-9 CT has demonstrated that CT given prior to RT or surgery can cause a great reduction in the size of the primary tumor while allowing the pathologically-eroded bone to heal prior to the initiation of RT; this also allows the high-risk patient with an axial primary (pelvis or spine) to tolerate the aggressive CT needed to prevent distant metastases. In addition to dramatically increasing survival in patients with Ewing's sarcoma, combination CT has helped achieve permanent local control. The superior survival rates for all sites of primary tumor are attributable to the early use of aggressive combination CT.
Since October 1973, 185 patients 21 years of age or younger with primary osteogenic sarcoma of an extremity were treated with adjuvant chemotherapy. Twenty-five of the first fifty-two patients (48%) have remained free of disease for a median of 7 years. In the next chemotherapy protocol most patients had chemotherapy prior to amputation or resection, during which time the dose of high-dose methotrexate was escalated in many patients to that needed to shrink the primary tumor. For a median of 4 years 43 of 54 patients (80%) have remained free of disease. In the current protocol, the response of the primary tumor to chemotherapy with high-dose methotrexate was used to select postoperative adjuvant chemotherapy for the patient. With the latter approach 73 of 79 patients (92%) have remained continuously free of disease for a median of 2 years. This experience demonstrates the value of chemotherapy in increasing the cure rate in osteogenic sarcoma and that the response to preoperative chemotherapy can help select postoperative chemotherapy to produce an even higher potential cure rate for osteogenic sarcoma.
A transient acute neurologic syndrome occurred in 22 patients receiving high-dose methotrexate (HDMTX) (8 to 9 g/m2) for a variety of malignancies. The neurologic signs were similar in all cases. The syndrome occurred an average of six days after the second or third weekly treatment. Common findings included behavioral abnormalities, focal sensorimotor signs, and abnormal reflexes. Signs often alternated from one side to the other. Evaluations including computed tomography (CT) scan, lumbar puncture, hemogram, and blood chemistry were normal. The EEG revealed some slowing in all cases. The cause of this syndrome is unknown. It is transient and usually does not recur. Its appearance does not preclude further treatment with HDMTX.
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