论文信息 - An interface holding chamber for anatomical and physiological studies of living brain slices

An interface holding chamber for anatomical and physiological studies of living brain slices

The popularity of infrared DIC videomicroscopy for a variety of anatomical and physiological studies in living brain slices has created a need for holding chambers to allow more than one slice to be examined during a single experiment. As is well known, the yield of experiments requiring living brain slices is severely limited by the conditions under which these slices are maintained prior to being examined. Previous electrophysiological and morphological studies have demonstrated that slices maintained submerged in solution deteriorate dramatically compared to those kept at the gas/fluid interface, even after only 1.5 hours and many recording chambers incorporate the interface principle in their design. However, to our knowledge, as obvious as it may seem, this principle has not been applied to the design of holding chambers, and those which are in current use are of the non-optimal, submerged type. We have designed a simple, but extremely effective holding chamber for incubation of brain slices floating at the gas-fluid interface. The slices held in this chamber have been maintained for at least 12 hours in excellent condition as shown here by rich labeling of their local axonal arbors. In addition, the chamber is designed to hold individual slices (up to 1 cm2 in size) in separate compartments for better preservation of brain slices from valuable species (e.g. animals subjected to experimental treatments, nonhuman primates and human biopsy tissue).

P. Goldman-Rakic | L. Krimer | Patricia S Goldman-Rakic | Leonid S Krimer

[1] J. B. Levitt,et al. Topography of pyramidal neuron intrinsic connections in macaque monkey prefrontal cortex (areas 9 and 46) , 1993, The Journal of comparative neurology.

[2] B. MacVicar. Infrared video microscopy to visualize neurons in the in vitro brain slice preparation , 1984, Journal of Neuroscience Methods.

[3] M. Raggenbass,et al. A new interface chamber for the study of mammalian nervous tissue slices , 1995, Journal of Neuroscience Methods.

[4] Hans-Ulrich Dodt,et al. Infrared videomicroscopy: a new look at neuronal structure and function , 1994, Trends in Neurosciences.

[5] Y. Kawaguchi. Physiological subgroups of nonpyramidal cells with specific morphological characteristics in layer II/III of rat frontal cortex , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[6] P. Goldman-Rakic,et al. Intrinsic circuit organization of the major layers and sublayers of the dorsolateral prefrontal cortex in the rhesus monkey , 1995, The Journal of comparative neurology.

[7] H. Dodt,et al. Visualizing unstained neurons in living brain slices by infrared DIC-videomicroscopy , 1990, Brain Research.

[8] T. J. Teyler,et al. Preparative methods for brain slices: a discussion , 1995, Journal of Neuroscience Methods.

[9] K. Reymann,et al. The influence of experimental conditions on the morphological preservation of hippocampal slices in vitro. , 1986, Biomedica biochimica acta.