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2002-24-6


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  • NOVASEPTUM® HIGH PURITY APPLICATION - 200224-551

    Document Type:
    Certificate of Quality
    Lot Number:
    200224-551
    Product Catalog Number:
    1711-10100
    Product Catalog Name:
    General sampling, high purity application, 100 mL - (General sampling, high purity application, 100 mL)

  • NOVASEPTUM® HIGH PURITY APPLICATION - 200224-553

    Document Type:
    Certificate of Quality
    Lot Number:
    200224-553
    Product Catalog Number:
    1711-10100
    Product Catalog Name:
    General sampling, high purity application, 100 mL - (General sampling, high purity application, 100 mL)

  • NOVASEPTUM® BOTTLE APPLICATION - 200224-502

    Document Type:
    Certificate of Quality
    Lot Number:
    200224-502
    Product Catalog Number:
    1871-80250
    Product Catalog Name:
    General sampling, bottle, 250 mL - (General sampling, bottle, 250 mL)

  • NOVASEPTUM® HIGH PURITY APPLICATION - 200224-554

    Document Type:
    Certificate of Quality
    Lot Number:
    200224-554
    Product Catalog Number:
    2711-10250
    Product Catalog Name:
    Cell Culture sampling, high purity application, 250 mL - (Cell Culture sampling, high purity application, 250 mL)

  • Depletion of new neurons by image guided irradiation. 21541259

    Ionizing radiation continues to be a relevant tool in both imaging and the treatment of cancer. Experimental uses of focal irradiation have recently been expanded to studies of new neurons in the adult brain. Such studies have shown cognitive deficits following radiation treatment and raised caution as to possible unintentional effects that may occur in humans. Conflicting outcomes of the effects of irradiation on adult neurogenesis suggest that the effects are either transient or permanent. In this study, we used an irradiation apparatus employed in the treatment of human tumors to assess radiation effects on rat neurogenesis. For subjects we used adult male rats (Sprague-Dawley) under anesthesia. The irradiation beam was directed at the hippocampus, a center for learning and memory, and the site of neurogenic activity in adult brain. The irradiation was applied at a dose-rate 0.6 Gy/min for total single-fraction, doses ranging from 0.5 to 10.0 Gy. The animals were returned to home cages and recovered with no sign of any side effects. The neurogenesis was measured either 1 week or 6 weeks after the irradiation. At 1 week, the number of neuronal progenitors was reduced in a dose-dependent manner with the 50% reduction at 0.78 Gy. The dose-response curve was well fitted by a double exponential suggesting two processes. Examination of the tissue with quantitative immunohistochemistry revealed a dominant low-dose effect on neuronal progenitors resulting in 80% suppression of neurogenesis. This effect was partially reversible, possibly due to compensatory proliferation of the remaining precursors. At higher doses (greater than 5 Gy) there was additional, nearly complete block of neurogenesis without compensatory proliferation. We conclude that notwithstanding the usefulness of irradiation for experimental purposes, the exposure of human subjects to doses often used in radiotherapy treatment could be damaging and cause cognitive impairments.
    Document Type:
    Reference
    Product Catalog Number:
    AB1778
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