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11

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Direct excitation of neck motoneurons by interstitiospinal fibers (1978)

Fukushima, K. ; Pitts, N. G. ; Peterson, B. W.

Springer

Experimental brain research 33 (1978), S. 565-581

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ISSN: 1432-1106

Keywords: Interstitial nucleus of Cajal ; Monosynaptic excitation ; Neck motoneurons

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Responses of neck motoneurons to stimulation of the interstitial nucleus of Cajal (INC) were recorded intracellularly in cats under chloralose anesthesia. When stimuli were applied within or close to the INC, short latency, monosynaptic excitatory postsynaptic potentials (EPSPs) were evoked in many neck motoneurons. Such EPSPs were not evoked by stimulating mesencephalic regions outside the INC. 2. Stimulation of the ipsilateral INC produced monosynaptic EPSPs consistently in biventer cervicis-complexus (BCC) motoneurons, while such EPSPs were observed in about two thirds of the splenius (SP) motoneurons and half of the trapezius (TR) motoneurons tested. Stimulation of the contralateral INC produced weak monosynaptic EPSPs in about half the BCC motoneurons and in a few SP and TR motoneurons. All types of motoneurons also received longer latency, apparently polysynaptic, PSPs from both INCs. In BCC and TR motoneurons these were mainly EPSPs, in SP, mixed excitatory and inhibitory PSPs. 3. Monosynaptic EPSPs evoked by INC stimulation were not eliminated by acute and chronic parasagittal and transverse lesions placed to interrupt the bifurcating axons of all vestibulospinal and many reticulospinal neurons. No significant collision was observed between EPSPs evoked by INC and vestibular or reticular stimulation. The EPSPs evoked by stimulation of the INC therefore appear to have been produced by activation of interstitiospinal neurons rather than by an axon reflex mechanism. 4. The properties of a number of interstitiospinal neurons were observed while recording extracellularly from the mesencephalon to map the location of the INC. One third of the interstitiospinal neurons activated antidromically from the C4 segment could also be activated antidromically from L1. These lumbar-projecting neurons had conduction velocities ranging from 15–123 m/s. Several interstitiospinal neurons sending axons to the ventral horn of the neck segments were identified and two of these were found to be branching neurons that projected both to the neck and to lower levels of the spinal cord.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235575

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12

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Properties of a new vestibulospinal projection, the caudal vestibulospinal tract (1978)

Peterson, B. W. ; Maunz, R. A. ; Fukushima, K.

Springer

Experimental brain research 32 (1978), S. 287-292

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ISSN: 1432-1106

Keywords: Caudal Vestibulospinal tract ; Fiber trajectory ; Conduction velocity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Neurons in the caudal portions of the medial and descending vestibular nuclei and in vestibular cell group f that project to the cervical or lumbar spinal cord were located by antidromic spinal stimulation. These caudal Vestibulospinal tract (CVST) neurons have a median conduction velocity of 12 m/sec, which is well below the conduction velocities of typical lateral or medial Vestibulospinal tract (LVST, MVST) axons. The descending fiber trajectories of CVST neurons, determined by comparing thresholds for activation of each neuron from six points in the spinal white matter, were remarkably diverse. Unlike LVST and MVST axons, which are located in the ipsilateral ventral funiculi, CVST axons can be found in both the ventral and dorsolateral funiculi on both sides of the spinal cord. The CVST system is thus both anatomically and physiologically different from the LVST and MVST.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239733

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13

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Responses of cat mesencephalic reticulospinal neurons to stimulation of superior colliculus, pericruciate cortex, and neck muscle afferents (1981)

Fukushima, K. ; Ohno, M. ; Kato, M.

Springer

Experimental brain research 44 (1981), S. 441-444

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ISSN: 1432-1106

Keywords: Mesencephalic reticulospinal neurons ; Superior colliculus ; Pericruciate cortex ; Neck muscle afferents

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Neurons were recorded extracellularly in the mesencephalic reticular formation outside the interstitial nucleus of Cajal in cerebellectomized cats anesthetized with α chloralose. Reticulospinal neurons were identified by antidromic stimulation of the upper cervical segments. Stimulation in the deep layers of the ipsilateral superior colliculus evoked firing in 36% of reticulospinal neurons. For many neurons thresholds for activation were high in the intermediate tectal layers and declined as the electrodes entered the underlying tegmentum. However, low threshold points were found above the deep fiber layer within the superior colliculus for some cells. Stimulation of the contralateral superior colliculus excited 10% of neurons and thresholds for activation were high above the deep fiber layer for all neurons. Stimulation of the ipsilateral and contralateral pericruciate cortex excited 39 and 21% of neurons, respectively. The lowest threshold area was found in the frontal eye fields. Sixteen percent of neurons received excitation from neck muscle afferents (C2 biventer-cervicis) bilaterally. Comparison of responses between mesencephalic reticulospinal neurons and interstitiospinal neurons (Fukushima et al. 1981) showed that responses of the two groups of neurons were similar when the pericruciate cortex and neck muscle afferents were stimulated. However, a difference was observed in tectal responses, since low threshold points were rarely observed above the deep fiber layer for interstitiospinal neurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238838

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14

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Location and vestibular responses of interstitial and midbrain reticular neurons that project to the vestibular nuclei in the cat (1982)

Fukushima, K. ; Ohno, M. ; Takahashi, K. ; [et al.]

Springer

Experimental brain research 45 (1982), S. 303-312

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ISSN: 1432-1106

Keywords: Midbrain reticular formation ; Interstitio-vestibular neurons ; Vestibular system ; Semicircular canal inputs ; Axon branching

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Experiments were performed on cats anesthetized with a chloralose to locate neurons in and around the interstitial nucleus of Cajal (INC) that project to the vestibular nuclei, and to study labyrinthine inputs to these neurons. Neurons that project to the vestibular nuclei were identified by microstimulation confined to the vestibular nuclei on both sides. All neurons thus identified were activated antidromically from the ipsilateral (but not contralateral) vestibular nuclei. Vestibular projecting neurons were found in the INC and the reticular formation rostral, dorsal and caudal to the INC. About 23% of these neurons were vestibular branching spinal projecting neurons. The median conduction velocity of vestibular projecting neurons was estimated to be in the neighborhood of 12–16 m/s. Stimulation of the contralateral vestibular nerve evoked firing in 29% of neurons projecting to the vestibular nuclei, but not to the spinal cord. Interstitial neurons responded more frequently than reticular neurons (45% vs 11%, χ2 test, p 〈 0.001). By stimulation of individual semicircular canal nerves, it was shown that vestibular projecting neurons receive excitation from the contralateral vertical canals, but do not receive substantial inputs from the horizontal canal. Stimulation of the ipsilateral vestibular nerve excited 10% of neurons; suppression of activity was observed for six cells and four of the six were excited by stimulation of the contralateral vestibular nerve. Stimulation of ipsilateral individual semicircular canal nerves did not excite any cells tested; the activity of a few cells was suppressed by stimulation of the vertical canal nerves. One neuron received excitation from the contralateral anterior canal and suppression from the ipsilateral posterior canal. Vestibular branching spinal projecting neurons rarely received labyrinthine inputs as already reported (Fukushima et al. 1980a). These results suggest that vestibular projecting neurons may be involved in vertical vestibular reflexes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235791

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15

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The pathways responsible for the characteristic head posture produced by lesions of the interstitial nucleus of Cajal in the cat (1987)

Fukushima, K. ; Fukushima, J. ; Terashima, T.

Springer

Experimental brain research 68 (1987), S. 88-102

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ISSN: 1432-1106

Keywords: Head posture ; Interstitial nucleus of Cajal ; Neck EMG ; Vestibular system ; Pontine reticular formation ; HRP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary (1) Experiments were performed in cats to examine effects of lesion of the interstitial nucleus of Cajal (INC) on head posture and the responsible pathway. Unilateral INC lesions resulted in lateral tilt of the head to the opposite side, and bilateral INC lesions resulted in dorsiflexion of the head as reported earlier. Such characteristic head posture was produced by successful kainic acid injections as well as by electrolytic lesions, suggesting that it was not due to damage of nerve fibers passing through the INC, but was produced most probably by damage of nerve cells in the INC. Electromyographic (EMG) recordings in unilateral INC-lesioned cats showed that activity was higher in the ipsilateral than in the contralateral major dorsal neck muscles (biventer, splenius, complexus, and rectus), and also higher in the contralateral than in the ipsilateral obliquus capitis caudalis muscle. The pattern of EMG activity was basically similar either when the cats presented typical head tilt or when their head was fixed to the frame at the stereotaxic plane. Characteristic head posture resulting from INC lesions seems consistent with the head posture produced by activation of these muscles. (2) Interruption of the medial and lateral vestibulospinal tracts did not significantly influence head tilt that had been produced by INC lesions. Characteristic head tilt was produced by INC lesions after cats had received bilateral labyrinthectomies, bilateral lesions of most of the vestibular nuclei, and bilateral aspiration of the cerebellar vermis and most of the lateral vestibular nuclei, indicating that typical head tilt can be produced without the vestibular nuclei and cerebellar vermis. (3) The medial longitudinal fasciculus (MLF) was interrupted at different levels to cut the major descending fibers from the INC. MLF interruption at the caudal midbrain produced typical head tilt, although MLF cut at the caudal pons and medulla was ineffective. Bilateral parasagittal cuts lateral to the MLF in the pons produced severe dorsiflexion of the head, and a subsequent unilateral INC lesion produced no further head tilt. These results suggest that fibers originating in the INC, removal of which is responsible for the typical head tilt, run through the MLF in the midbrain, and leave it in the pontine level. (4) After injections of HRP into the INC and closely surrounding reticular formation, anterogradely labeled fibers were seen in the ipsilateral rostral pontine MLF, and many of them entered the pontine reticular formation which corresponds to the caudal part of the nucleus reticularis (n.r.) pontis oralis and the rostral part of the n.r. pontis caudalis. In electrophysiological experiments, many neurons were antidromically activated in the INC region by weak stimuli confined to the ipsilateral rostral pontine reticular formation. Many cells were found within the INC and surrounding reticular formation. These results suggest that interruption of the INC projection to the rostral pontine reticular formation may be responsible for the characteristic head tilt produced by INC lesions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00255236

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16

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Compartmentalization of the cervicocollic reflex in cat splenius muscle (1983)

Ezure, K. ; Fukushima, K. ; Schor, R. H. ; [et al.]

Springer

Experimental brain research 51 (1983), S. 397-404

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ISSN: 1432-1106

Keywords: Cervicocollic reflex ; Muscle Compartmentalization

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We have examined the cervicocollic reflex (CCR), evoked by horizontal rotation of the head of decerebrate cats, in the dorsal neck extensor muscle splenius. This muscle is divided into compartments which are innervated by three or four spinal segments; an analogous Compartmentalization may be observed in the CCR. When the CCR is evoked by rotation of the head about a vertical axis centered over C1–C2, the modulation of EMG activity is higher in the rostral than in the caudal compartments; in some cases, the rostral compartments can be modulated selectively. The rostrocaudal gradient of modulation is absent if the axis of rotation is shifted caudally to C4–C5. In muscles which had been completely detached from their origin and insertion, the pattern of activation of the CCR was similar to that observed in intact muscle, although the gain of the reflex fell by two thirds. This suggests that significant inputs to this reflex arise both from within splenius itself and from receptors outside this muscle. The typical CCR disappears if the C1–C4 dorsal roots ipsilateral to splenius are cut; furthermore, the reflex appears normal in animals with spinal transections above C1. A significant component of the CCR in splenius appears to be a segmental stretch reflex, originating partly in splenius and partly from receptors outside the muscle.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237876

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17

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Interstitiospinal action on forelimb, hindlimb, and back motoneurons (1979)

Fukushima, K. ; Pitts, N. G. ; Peterson, B. W.

Springer

Experimental brain research 37 (1979), S. 605-608

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ISSN: 1432-1106

Keywords: Motoneuron ; Forelimb ; Hindlimb ; Back

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Responses of motoneurons supplying muscles of the forelimbs, hindlimbs, and back to stimulation of the interstitial nucleus of Cajal (INC) were recorded intracellularly in cats under chloralose anesthesia. Stimulation of the ipsilateral and contralateral INC evoked predominantly excitatory postsynaptic potentials in these motoneurons. Response latencies and properties of responses to multiple shock stimuli indicated that the responses were evoked by a di- or polysynaptic pathway. Stimulation of the anterior MLF (P2), which should have activated the entire interstitiospinal tract, but few reticulospinal or vestibulospinal fibers, evoked only polysynaptic responses. These results indicate that the INC does not establish direct synaptic connections with limb and back motoneurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236827

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18

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Properties and connections of cat fastigiospinal neurons (1978)

Wilson, V. J. ; Uchino, Y. ; Maunz, R. A. ; [et al.]

Springer

Experimental brain research 32 (1978), S. 1-17

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ISSN: 1432-1106

Keywords: Fastigial nucleus ; Fastigiospinal neurons ; Motoneurons

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Neurons in the cat fastigial nucleus that project to the upper cervical spinal segments (fastigiospinal neurons) were fired by antidromic stimulation of the contralateral spinal cord. Dye ejection from the recording electrode was used to show that most neurons were in the rostral half of the fastigial nucleus. 2. Fastigiospinal neurons can be excited and/or inhibited by stimulation of forelimb and hindlimb nerves and by stimulation of the vestibular nerve. These inputs converge on many neurons. 3. Antidromic microstimulation was used to trace fastigiospinal axons to the vicinity of motor nuclei in C2-C3. 4. The rostral fastigial nucleus was stimulated in preparations with the medial longitudinal fasciculus transected by a wide lesion that impinged on the medial reticular formation in the caudal medulla, to eliminate some potential axon reflexes. Short-latency EPSPs were recorded in some trapezius and biventer-cervicis motoneurons. In many cases there was little or no occlusion between these EPSPs and others evoked by stimulation of the vestibular nerve ipsilateral to the motoneurons. 5. Movement of the stimulating electrode and placement of this electrode lateral to the fastigial nucleus show that the zone from which low threshold EPSPs can be evoked is localized. 6. Latency measurements and lack of temporal facilitation with double shocks suggest that the EPSPs are monosynaptic. The evidence suggests that they are caused by fastigiospinal fibers terminating on motoneurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237385

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19

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Reticulospinal excitation and inhibition of neck motoneurons (1978)

Peterson, B. W. ; Pitts, N. G. ; Fukushima, K. ; [et al.]

Springer

Experimental brain research 32 (1978), S. 471-489

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ISSN: 1432-1106

Keywords: Reticulospinal ; Monosynaptic ; Excitation ; Inhibition ; Neck motoneurons

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Responses of neck motoneurons to electrical stimulation of the pontomedullary reticular formation were recorded intracellularly in cerebellectomized cats anesthetized with chloralose. Stimulation of nucleus reticularis (n.r.) ventralis and the dorsal part of n.r. gigantocellularis evoked short latency, monosynaptic inhibitory postsynaptic potentials (IPSPs) in the majority of motoneurons supplying the ipsilateral splenius, biventer cervicis and complexus muscles and in 25% of motoneurons projecting in the ipsilateral spinal accessory nerve. Monosynaptic IPSPs were also evoked by stimulating the medial longitudinal fasciculus (MLF) but lesion and collision experiments indicated that these IPSPs were independent of those evoked by reticular stimulation. Monosynaptic IPSPs were also occasionally observed following stimulation of the contralateral reticular formation, especially of the dorsal part of n.r. gigantocellularis. Monosynaptic excitatory postsynaptic potentials (EPSPs) were evoked in all classes of neck motoneurons studied by stimulation of n.r. pontis caudalis, gigantocellularis and ventralis. Each reticular nucleus appeared to contribute to this excitation. The excitation was bilateral but large monosynaptic EPSPs were most often seen in motoneurons ipsilateral to the stimulus site. Data indicated that pontine EPSPs were mediated by ventromedial reticulospinal fibers while medullary EPSPs were mediated by ventrolateral reticulospinal fibers. Neck motoneurons thus receive at least three distinct direct reticulospinal inputs, two excitatory and one inhibitory.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239548

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Structural Chemistry of Alkaline Earth Aluminate Phosphors (2006)

Fukuda, Koichiro ; Fukushima, K. ; Iwata, T.

s.l. ; Stafa-Zurich, Switzerland

Advanced materials research Vol. 11-12 (Feb. 2006), p. 43-46

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ISSN: 1662-8985

Source: Scientific.Net: Materials Science & Technology / Trans Tech Publications Archiv 1984-2008

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Crystal structures of SrAl2O4, BaAl2O4 and their solid solutions have been reviewed interms of the linkage pattern of [AlO4] tetrahedra. With SrAl2O4 the hexagonal-to-monoclinic phasetransformation occurs at 950K during cooling. The space group change from P63 to its subgroup P21eliminates the triad axis of the former phase, which involves a reduction in the symmetry of thetrigonally distorted rings. The hexagonal structures of SrAl2O4 and BaAl2O4 differ distinctly in thelinkage pattern of the [AlO4] tetrahedra. In the former structure, all of the tetrahedral rings areequivalent. In the latter, there are two types of tetrahedral rings; trigonal rings and asymmetrical ones.The trigonal rings, comprising 25% of the total number of rings, contain in their centers the Ba atomswith the special position. This implies that the triad axes exist in the centers of the rings, and hencethey are distorted trigonally as in the hexagonal SrAl2O4. On the other hand, the Ba atoms in theasymmetrical rings are located at the general position site. The structural disorder in Ba0.6Sr0.4Al2O4(space group P6322) was investigated by the combined use of Rietveld method and maximum-entropymethod. The electron density distribution was satisfactorily expressed by the split-atom model, inwhich the strontium/barium and oxygen atoms were split to occupy the lower symmetry sites

Type of Medium: Electronic Resource

URL: http://www.tib-hannover.de/fulltexts/2011/0528/01/39/transtech_doi~10.4028%252Fwww.scientific.net%252FAMR.11-12.43.pdf

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