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15 in total

1. The pontocerebellar projection in the rhesus monkey: an experimental study with retrograde axonal transport of horseradish peroxidase.

Authors: P Brodal
Journal: Neuroscience Date: 1979 Impact factor: 3.590

2. The cerebellum of the cat and the monkey.

Authors: O LARSELL
Journal: J Comp Neurol Date: 1953-08 Impact factor: 3.215

3. The ponto-cerebellar projection in the rabbit and cat; experimental investigations.

Authors: A BRODAL; J JANSEN
Journal: J Comp Neurol Date: 1946-02 Impact factor: 3.215

4. The corticopontine projection in the rhesus monkey. Origin and principles of organization.

Authors: P Brodal
Journal: Brain Date: 1978-06 Impact factor: 13.501

Review 5. Cerebrocerebellar communication systems.

Authors: G I Allen; N Tsukahara
Journal: Physiol Rev Date: 1974-10 Impact factor: 37.312

6. Electrophysiological and horseradish peroxidase studies of precerebellar afferents to the nucleus interpositus anterior. II. Mossy fiber system.

Authors: R A McCrea; G A Bishop; S T Kitai
Journal: Brain Res Date: 1977-02-18 Impact factor: 3.252

7. Cerebellar afferents from the paramedian reticular nucleus studied with retrograde transport of horseradish peroxidase.

Authors: R Somana; F Walberg
Journal: Anat Embryol (Berl) Date: 1978-09-27

8. The cortical projection to the nucleus reticularis tegmenti pontis in the rhesus monkey.

Authors: P Brodal
Journal: Exp Brain Res Date: 1980 Impact factor: 1.972

9. Light and electron microscopic observations on the anterograde transport of horseradish peroxidase in the optic pathway in the mouse and rat.

Authors: D R Colman; F Scalia; E Cabrales
Journal: Brain Res Date: 1976-01-30 Impact factor: 3.252

10. Descending pathways from the superior collicullus: an autoradiographic analysis in the rhesus monkey (Macaca mulatta).

Authors: J K Harting
Journal: J Comp Neurol Date: 1977-06-01 Impact factor: 3.215

20 in total

1. Sensorimotor mapping of the human cerebellum: fMRI evidence of somatotopic organization.

Authors: W Grodd; E Hülsmann; M Lotze; D Wildgruber; M Erb
Journal: Hum Brain Mapp Date: 2001-06 Impact factor: 5.038

2. Frequency characteristics of accommodation in a patient with agenesis of the posterior vermis and normal subjects.

Authors: K Ohtsuka; M Sawa
Journal: Br J Ophthalmol Date: 1997-06 Impact factor: 4.638

Review 3. Saccade adaptation as a model of learning in voluntary movements.

Authors: Yoshiki Iwamoto; Yuki Kaku
Journal: Exp Brain Res Date: 2010-06-11 Impact factor: 1.972

4. Information processing in the hemisphere of the cerebellar cortex for control of wrist movement.

Authors: Saeka Tomatsu; Takahiro Ishikawa; Yoshiaki Tsunoda; Jongho Lee; Donna S Hoffman; Shinji Kakei
Journal: J Neurophysiol Date: 2015-10-14 Impact factor: 2.714

5. Discharge of monkey nucleus reticularis tegmenti pontis neurons changes during saccade adaptation.

Authors: N Takeichi; C R S Kaneko; A F Fuchs
Journal: J Neurophysiol Date: 2005-05-25 Impact factor: 2.714

6. Effect of pharmacological inactivation of nucleus reticularis tegmenti pontis on saccadic eye movements in the monkey.

Authors: Chris R S Kaneko; Albert F Fuchs
Journal: J Neurophysiol Date: 2006-02-08 Impact factor: 2.714

7. Cerebellar inputs to intraparietal cortex areas LIP and MIP: functional frameworks for adaptive control of eye movements, reaching, and arm/eye/head movement coordination.

Authors: Vincent Prevosto; Werner Graf; Gabriella Ugolini
Journal: Cereb Cortex Date: 2010-01 Impact factor: 5.357

The projection from the nucleus reticularis tegmenti pontis to the cerebellum in the rhesus monkey.