The functional status and columnar organization of single cells responding to cutaneous stimulation in neonatal rat somatosensory cortex S1.

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The functional status and columnar organization of single cells responding to cutaneous stimulation in neonatal rat somatosensory cortex S1.

M Armstrong-James

1. An investigation was carried out on single cells in 7 dayold rat primary somatosensory cortex, which responded to cutaneousstimulation using mechanical pulses. 3 percent of cells encounteredshowed stable spontaneous activity, whereas 88 percent weresilent in the absence of intentional stimulation. The remaindershowed unstable spontaneous activity. In contrast, the greatmajority of adult cells were spontaneously active in the absenceof stimulation, under similar conditions of urethane anaesthesia.2. The distribution within cortical layers of cutaneously drivencells was similar in adult and 7 day old rats, and similar tothat found in adult mammalian cortex by other workers. 3. 7day old cells showed diminished excitability to cutaneous stimulationwith stimuli at intervals below 10-15 sec, whereas adult cellscould be successfully repetitively driven with stimuli at intervalsof 500 msec. The low ability of the immature cells to followrepetitive cutaneous stimulation is not due to an overall depressionof these cells excitability per se. Latencies of unitary responsesin these immature cells were about sixfold those found in equivalentcells at maturity. 4. Columnar organization at seven days ofage was similar in outline to that of the adult, but much lessdiscrete. Receptive fields were considerably larger at 7 daysand evidence is given that this may be due to inadequate surroundinhibition. Immature vibrissae-driven units were directionallyselective. 5. At 7 days of age, long inter-spike intervals wererare in spontaneously active cells with the result that inter-spikeinterval histogram distributions (i.h.s.) were approximatelynormal. Corresponding i.h.s. of adult cells invariably showedskew distributions. 6. Tactile stimulation of centre receptivefields produced an increase in short and long intervals fromspontaneously active cells at each age. In contrast to adultcells, the immature cells commonly responded cyclically, withalternating phases of increased and decreased firing rate forperiods of up to 3 sec following punctate stimulation. 7. Decreasein spontaneous firing rate, following the first phase of excitation,was profound in 7 day old cells, and implied that inhibitorymechanisms operate at an early age in the rat somatosensorysystem. These mechanisms also appear to contribute to cyclicalactivity of 7 day old cells when driven by punctate cutaneousstimulation.

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