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Treating malignant brain tumors represents one of the most formidable challenges in oncology. Contemporary treatment of brain tumors has been hampered by limited drug delivery across the blood–brain barrier (BBB) to the tumor bed. Biomaterials are playing an increasingly important role in developing more effective brain tumor treatments. In particular, polymer (nano)particles can provide prolonged drug delivery directly to the tumor following direct intracerebral injection, by making them physiochemically able to cross the BBB to the tumor, or by functionalizing the material surface with peptides and ligands allowing the drug-loaded material to be systemically administered but still specifically target the tumor endothelium or tumor cells themselves. Biomaterials can also serve as targeted delivery devices for novel therapies including gene therapy, photodynamic therapy, anti-angiogenic and thermotherapy. Nanoparticles also have the potential to play key roles in the diagnosis and imaging of brain tumors by revolutionizing both preoperative and intraoperative brain tumor detection, allowing early detection of pre-cancerous cells, and providing real-time, longitudinal, non-invasive monitoring/imaging of the effects of treatment. Additional efforts are focused on developing biomaterial systems that are uniquely capable of delivering tumor-associated antigens, immunotherapeutic agents or programming immune cells in situ to identify and facilitate immune-mediated tumor cell killing. The continued translation of current research into clinical practice will rely on solving challenges relating to the pharmacology of nanoparticles but it is envisioned that novel biomaterials will ultimately allow clinicians to target tumors and introduce multiple, pharmaceutically relevant entities for simultaneous targeting, imaging, and therapy in a unique and unprecedented manner. 相似文献
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Kent N. Strodtman Sooyoung Franck Randall Tindall Cheryl Jensen Annamraju D. Sarma David W. Emerich 《Symbiosis (Philadelphia, Pa.)》2011,54(2):95-100
Bradyrhizobium japonicum bacteroids in soybean nodules expressed fibrillar appendages during senescence. In both scanning and transmission electron
microscopy (SEM and TEM), these structures were observed to connect adjacent bacteroids, and bacteroids to symbiotic membranes.
They were 20–25 nm in diameter, 100–2,500 nm in length and were linear, branched, or part of a web-like matrix. Bacteroids
expressing appendages were not uniformly distributed, but were abundant within localized regions in the senescing nodule.
The root systems of nodulated greenhouse-grown plants flushed with argon induced the appendages at earlier plant ages, and
they were more prolific and wide spread than those in untreated nodules. Bradyrhizobium japonicum symbiotic appendages appear to be a response to an environmental niche within senescing nodules. 相似文献
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Dr. Emerich Ráthay 《Plant Systematics and Evolution》1880,30(8):241-244
Ohne Zusammenfassung 相似文献
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Michael J. Lysaght Beata Frydel Frank Gentile Dwaine Emerich Shelley Winn 《Journal of cellular biochemistry》1994,56(2):196-203
Biohybrid implalts represent a new class of medical device in which living cells, supported in a hydrogel matrix, and surrounded by semipepmiable membrane, produce and deliver therapeutic reagents tm specific sites wthin a host. First prpmsed in the mid-1970s for tpeatment modality has progressed rapidly in the past four years and is now being investigated not just for endcrine disorders but also for alleviation of chronic pain, treatment of neurodegenerative disorders, and delivery of neurotrophic factors to sites withil the blood brain barrier, and aq a practical alternative to conventional ex vivo. 相似文献