clinicaltrials.gov Identifier: NCT01514188.
Background:Preoperative radiotherapy (RT) is commonly used to treat localised soft-tissue sarcomas (STS). Hypoxia is an important determinant of radioresistance. Whether antiangiogenic therapy can ‘normalise' tumour vasculature, thereby improving oxygenation, remains unknown.Methods:Two cohorts were prospectively enrolled. Cohort A evaluated the implications of hypoxia in STS, using the hypoxic tracer 18F-azomycin arabinoside (FAZA-PET). In cohort B, sunitinib was added to preoperative RT in a dose-finding phase 1b/2 design.Results:In cohort A, 13 out of 23 tumours were hypoxic (FAZA-PET), correlating with metabolic activity (r2=0.85; P<0.001). Two-year progression-free (PFS) and overall (OS) survival were 61% (95% CI: 0.44–0.84) and 87% (95% CI: 0.74–1.00), respectively. Hypoxia was associated with radioresistance (P=0.012), higher local recurrence (Hazard ratio (HR): 10.2; P=0.02), PFS (HR: 8.4; P=0.02), and OS (HR: 41.4; P<0.04). In Cohort B, seven patients received sunitinib at dose level (DL): 0 (50 mg per day for 2 weeks before RT; 25 mg per day during RT) and two patients received DL: −1 (37.5 mg per day for entire period). Dose-limiting toxicities were observed in 4 out of 7 patients at DL 0 and 2 out of 2 patients at DL −1, resulting in premature study closure. Although there was no difference in PFS or OS, patients receiving sunitinib had higher local failure (HR: 8.1; P=0.004).Conclusion:In STS, hypoxia is associated with adverse outcomes. The combination of sunitinib with preoperative RT resulted in unacceptable toxicities, and higher local relapse rates.
Good evidence indicates that adolescents and young adults (AYAs) with cancer do badly compared with children with similar cancers. The reasons are poorly understood. Australian registry data on 14,824 cancers of adolescence and young adulthood seen between 1982 and 2002 were reviewed. A detailed substudy of clinical characteristics was analyzed from 179 AYAs with Hodgkin lymphoma (HL), Ewing sarcoma (ES) or osteosarcomas (OS) treated at a single institution. Despite significant improvements in survival for both groups over the period in question, for acute lymphoblastic leukaemia, rhabdomyosarcoma, ES, OS and HL, survival for AYAs was worse than for children. For ES, OS and HL, the survival gap occurred almost entirely in males (Hazard ratios compared with female AYAs of 1.8 [p < 0.01], 1.4 [p = 0.03] and 1.5 [p < 0.01] respectively). Survival outcomes from ES, OS and HL for female AYAs were not significantly different from children of either sex. For brain tumors and thyroid cancers, which are primarily treated surgically, there were no gender‐related differences in outcomes. Although no differences in tumor stage or compliance were identified, male AYAs experienced less toxicity and lower response rates to chemotherapy (p = 0.008). Young males account almost entirely for excess mortality from chemosensitive cancers of adolescence and young adulthood compared to children, which may be due to relative underdosing with current chemotherapy dosing algorithms. © 2009 UICC
Worldwide, colorectal cancer is a common cancer and a major cause of morbidity and mortality. Patients frequently present with, or later develop, metastatic disease. Median survival with supportive care alone is approximately 6 - 8 months. However, a number of recent developments have greatly increased the range of therapeutic options, improving median survival to > 20 months. Cytotoxic agents such as capecitabine, irinotecan and oxaliplatin are now established treatment strategies. In parallel, an improved understanding of tumour biology has led to the development of non-cytotoxic targeted therapies. Examples include bevacizumab (targeting tumour angiogenesis) and cetuximab (targeting the epidermal growth factor receptor). These agents have recently been incorporated into standard management. This paper reviews these and other advances in the care of patients with advanced colorectal cancer and discusses a number of agents that are currently under development.
Background:Tumoural interstitial hypertension, possibly modulated by platelet-derived and vascular endothelial growth factor receptors (PDGFR and VEGFR), may mediate resistance to chemotherapy.Methods:Forty-eight patients with advanced solid tumours received oral PDGFR inhibitor CP-868,596 (60–100 mg twice daily (BID)) and docetaxel (75–100 mg m–2), or CP-868,596 (60 mg BID), docetaxel (75 mg m–2), and VEGFR inhibitor axitinib (5 mg BID).Results:The CP-868,596/docetaxel was escalated as above. The CP-868,596/docetaxel/axitinib was not dose escalated because of increased incidence of mucositis-like adverse events (AEs) with concurrent neutropenia relative to that expected for docetaxel. All tested regimens were tolerable, including 100 mg BID CP-868,596 (recommended phase II dose) plus 100 mg m–2 docetaxel (maximum approved dose). Most treatment-emergent AEs were mild–moderate and reversible, commonly including nausea, diarrhoea, vomiting, constipation, fatigue, and anaemia (CP-868,596/docetaxel), and hypertension, lethargy, diarrhoea, and fatigue (CP-868,596/docetaxel/axitnib). Pharmacokinetics were unaffected by co-administration. Twenty-one patients achieved stable disease, including all seven evaluable on CP-868,596/docetaxel/axitinib. All nine CP-868,596/docetaxel/axitinib patients received therapy for a median of six (range, 3–16) cycles.Conclusions:The CP-868,596/docetaxel was well tolerated, but increased efficacy was not observed. Addition of axitinib delivered greater benefits than expected in the number of patients achieving prolonged stable disease with a moderate increase in AEs.
Standard chemoradiotherapy with infusional 5FU for locally advanced pancreatic cancer (LAPC) has limited efficacy in this disease. The combination of Capecitabine (Cap) and Gemcitabine (Gem) are synergistic and are potent radiosensitisers. The aim of this phase I trial was thus to determine the highest administered dose of the Cap plus Gem combination with radical radiotherapy (RT) for LAPC. Patients had LAPC, adequate organ function, ECOG PS 0–1. During RT, Gem was escalated from 20–50 mg m −2 day −1 (twice per week), and Cap 800–2000 mg m −2 day −1 (b.i.d, days 1–5 of each week). Radiotherapy 50.4 Gy/28 fractions/5.5 weeks, using 3D-conformal techniques. Three patients were entered to each dose level (DL). Dose-limiting toxicity(s) (DLTs) were based on treatment-related toxicities. Twenty patients were accrued. Dose level (DL) 1: Cap/Gem; 800/20 mg m −2 day −1 (3 patients), DL2: 1000/20 (12 patients), DL3: 1300/30 (5 patients). Dose-limiting toxicities were observed in DL3; grade 3 dehydration (1 patient) and grade 3 diarrhoea and dehydration (1 patient). Dose level 2 was the recommend phase 2 dose. Disease control rate was 75%: PR=15%, SD=60%. Median overall survival was 11.2 months. The addition of Cap and Gem to radical RT was feasible and active and achieved at relatively low doses.
Positron emission tomography (PET) is a noninvasive functional imaging technique that allows assessment of key biological processes important in cancer development and progression. It provides information complementary to conventional anatomic imaging, demonstrating utility in a range of cancer settings from diagnosis, biopsy guidance, tumor stratification and prognostication, and staging and surveillance of disease recurrence. Its ability to evaluate vital processes in tumor biology also makes it a potentially valuable and sensitive tool for assessing therapeutic response. The development of novel PET tracers and improvements in technology will only continue to augment the potential of PET and enhance its attractiveness as an instrument to facilitate drug development. This article will discuss the above issues, using the setting of sarcomas as an example.
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