Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
 30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although teniposide activity in glioma was reported as early as 1971, it is only within the last 2 to 3 years that its effectiveness in small cell lung cancer and, most dramatically, in associated brain metastasis, has undergone long overdue systematic investigation. The drug appears to enjoy preferential uptake by brain-tumor tissue compared with disease-free brain tissue. Single-agent activity of teniposide in astrocytomas has been widely reported but the data are difficult to interpret due to differences among studies in definition of response and response duration. Combination therapy has focused primarily on teniposide with nitrosoureas and, again, definition variations have made it difficult to evaluate data. Similar problems plague trials by one group of investigators who reported that the combination of teniposide with doxorubicin and lomustine resulted in regression or improvement in significant percentages of their patients. While many studies indicate that teniposide has significant potential in treatment of adult glioma, controlled trials are needed to evaluate and optimize the use of this agent.
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PMID:Teniposide (VM-26) in brain tumors. 141 42

The ability to image targeted tracer binding to epidermal growth factor receptor (EGFR) was studied in vivo in orthotopically grown glioma tumors of different sizes. The binding potential was quantified using a dual-tracer approach, which employs a fluorescently labeled peptide targeted to EGFR and a reference tracer with similar pharmacokinetic properties but no specific binding, to estimate the relative bound fraction from kinetic compartment modeling. The recovered values of binding potential did not vary significantly as a function of tumor size (1 to 33 mm3), suggesting that binding potential may be consistent in the U251 tumors regardless of size or stage after implantation. However, the fluorescence yield of the targeted fluorescent tracers in the tumor was affected significantly by tumor size, suggesting that dual-tracer imaging helps account for variations in absolute uptake, which plague single-tracer imaging techniques. Ex vivo analysis showed relatively high spatial heterogeneity in each tumor that cannot be resolved by tomographic techniques. Nonetheless, the dual-tracer tomographic technique is a powerful tool for longitudinal bulk estimation of receptor binding.
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PMID:Tomography of epidermal growth factor receptor binding to fluorescent Affibody in vivo studied with magnetic resonance guided fluorescence recovery in varying orthotopic glioma sizes. 2565 3

Glioblastoma multiforme (GBM) is an aggressive form of brain cancer that has no effective treatments and a prognosis of only 12-15 months. Microfluidic technologies deliver microscale control of fluids and cells, and have aided cancer therapy as point-of-care devices for the diagnosis of breast and prostate cancers. However, a few microfluidic devices are developed to study malignant glioma. The ability of these platforms to accurately replicate the complex microenvironmental and extracellular conditions prevailing in the brain and facilitate the measurement of biological phenomena with high resolution and in a high-throughput manner could prove useful for studying glioma progression. These attributes, coupled with their relatively simple fabrication process, make them attractive for use as point-of-care diagnostic devices for detection and treatment of GBM. Here, the current issues that plague GBM research and treatment, as well as the current state of the art in glioma detection and therapy, are reviewed. Finally, opportunities are identified for implementing microfluidic technologies into research and diagnostics to facilitate the rapid detection and better therapeutic targeting of GBM.
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PMID:Microfluidics in Malignant Glioma Research and Precision Medicine. 2978 Aug 78