#separator:tab
#html:true
"What is the purpose of hte limbic associatin cortex?
"
"What are the components of the limbic association cortex?
"
"What are the limbic system componenets?
"
"What does the hippocampal formation do?
"
"What does the amygdala do?
"
"What does the etral striatum do?
"
"What are the nuclei of the thalamus?
"
"What are the components of the hypothalamus?
"
"What are the components of the limbic system?
"
"What does the primary thalamus get input from?
"
"What does the subgenual cingulate gyrus do?
"
"What does the anterior cingulate gyrus do?
"
"What does the middle cingulate gyrus do?
"
"What does the posterior cingulate gyrus do?
"
"What cortex recieves inforamtion from all sensory modalities?
"
"What cortex receives informtion from the reward center?
"
"What cortex is used for emotional decison making?
"
"What cortex is a major component of addiction?
"
"Where is the hippocampal formation?
"
"What are the parts of the hippocampal formation?
"
"What is formed by projections off of the dorsal part of the hippocampal formation?
"
"What does the fornix connect to?
"
"Where are memories consolidated?
"
"If there is damage to hippocampal formation, what happens?
"
"Where is spatial memory emphasized in the hippocampus?
"
"Where is perception and imagination prominenet in the hippocampal formation?
"
"What deals with the link between stress and emotion?
"
"What is the medial limbic circuit also known as?
"
"What gathers informatin from the limbic associatin cortices?
"
"Where does the entorhinal cortex project to?
"
"After the entorhinal cortex projects to the dentate gyrus, where does it project?
"
"After Medial limbic ciruit projects to the hippocampus, where do the projectiosn go?
"
"In the medial limbic circuit, where do the projections go after reaching the subiculum?
"
"In the medial limbic circuit, where does the subiculum send axons?
"
"In the mediallimbic circuit, where does the hippocampus send axons?
"
"What does the septal nuclei deal with?
"
"What stimulates the amygdala?
"
"What is damaged if someone can't recognize facial expression or emotional content of speech?
"
"What are the three nuclei of the amygdala?
"
"What nuclei connects visual and auditory stimulus with emotional responses?
"
"What connects with the hippocampal formation to give context to fears?
"
"What connects the basolateral nuclei to the medial dorsal nucleus?
"
"What areas does the basolateral nuclei have direct connections with?
"
"What does the central nuclei do?
"
"What nuclei receives input from basolteral nuclei, solitary nuclei, and the parabrachial nuclei?
"
"What does the central nuclei project through to get to the parasympathetic nuclei in the brainstem and the reticular formation?
"
"Where will the central nuclei project to?
"
"What nuclei does emotional response to scents?
"
"Where does the cortical nuclei send signals?
"
"What do the signals of the cortical nuclei travel on?
"
"What is the reward system?
"
"Where does the mesolimbic system start?
"
"In the mesolimbic system, where do the dopaminergic projections travel to?
"
"After the mesolimbic system goes to the ventral striatum, where do they go?
"
"After the mesolimbic system goes to to the anterior and medial dorsal nucleus of the thalamus, where does it go?
"
"How can someone reduce addiction?
"
"What is activated when feeding, social iinteractions, and drugs?
"
"What does the reticular formation merge with rostrally?
"
"What does the reticular formation merge with caudally?
"
"What is the function of the rostral part of the reticular formation?
"
"What is the function of the caudal portion of the reticular formation?
"
"Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze"" data-cloze=""posterior&#x20;hypothalamus"" data-ordinal=""4"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul>""Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul><br>
"
"Many systems work together to maintain <span class=""cloze"" data-cloze=""consciousness"" data-ordinal=""1"">[...]</span> and affect <span class=""cloze"" data-cloze=""sleep&#x20;cycles"" data-ordinal=""1"">[...]</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul>""Many systems work together to maintain <span class=""cloze"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul><br>
"
"Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze"" data-cloze=""reticular&#x20;formation"" data-ordinal=""3"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul>""Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul><br>
"
"Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze"" data-cloze=""thalamic&#x20;intralaminar&#x20;nuclei"" data-ordinal=""6"">[...]</span></li></ul>""Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul><br>
"
"Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze"" data-cloze=""basal&#x20;forebrain"" data-ordinal=""5"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul>""Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul><br>
"
"Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze"" data-cloze=""brainstem"" data-ordinal=""2"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul>""Many systems work together to maintain <span class=""cloze-inactive"" data-ordinal=""1"">consciousness</span> and affect <span class=""cloze-inactive"" data-ordinal=""1"">sleep cycles</span>:<br><ul><li><span class=""cloze"" data-ordinal=""2"">brainstem</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">reticular formation</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">posterior hypothalamus</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">basal forebrain</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">thalamic intralaminar nuclei</span></li></ul><br>
"
"Damage to what area is the only known singualr area to typically cause a coma?
"
"What nucleus modulates respiratory rate?
"
"A lesion to what part of the brainstem could cause respiratory arrest?
"
"What modulates the cardiovascular system?
"
"What nuclei have significant connections to the limbic system?
"
"There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze"" data-cloze=""rubrospinal"" data-ordinal=""3"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul>""There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul><br>
"
"There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze"" data-cloze=""pontine&#x20;urination&#x20;center"" data-ordinal=""2"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul>""There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul><br>
"
"There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze"" data-cloze=""respiration"" data-ordinal=""1"">[...]</span></li></ul>""There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze"" data-ordinal=""1"">respiration</span></li></ul><br>
"
"There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze"" data-cloze=""Reticulospinal&#x20;tract"" data-ordinal=""6"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul>""There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul><br>
"
"There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze"" data-cloze=""vestibulospinal"" data-ordinal=""5"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul>""There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul><br>
"
"There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze"" data-cloze=""tectospinal&amp;nbsp&#x3B;"" data-ordinal=""4"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul>""There are many motor functions that can work without <span class=""cloze-inactive"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul><br>
"
"There are many motor functions that can work without <span class=""cloze"" data-cloze=""cortical&#x20;input"" data-ordinal=""7"">[...]</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul>""There are many motor functions that can work without <span class=""cloze"" data-ordinal=""7"">cortical input</span> due to circuits in the reticualr formation:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""6"">Reticulospinal tract</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">vestibulospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">tectospinal&nbsp;</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">rubrospinal</span></li><li><span class=""cloze-inactive"" data-ordinal=""2"">pontine urination center</span></li><li><span class=""cloze-inactive"" data-ordinal=""1"">respiration</span></li></ul><br>
"
What is abnormal posturing mediated by?brainstem circuits
"There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze"" data-cloze=""Spontaneous&#x20;facial&#x20;expression&#x20;&#x28;Facial&#x20;nucleus&#x29;"" data-ordinal=""5"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul>""There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul><br>
"
"There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze"" data-cloze=""Sucking&#x20;&#x28;Facial&#x20;nucleus&#x29;"" data-ordinal=""4"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul>""There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul><br>
"
"There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze"" data-cloze=""Swallowing&#x20;&#x28;Nucleus&#x20;ambiguus&#x20;and&#x20;Dorsal&#x20;Vagal&#x20;nucleus&#x29;"" data-ordinal=""6"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul>""There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul><br>
"
"There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze"" data-cloze=""Chewing&#x20;&#x28;trigeminla&#x20;motor&#x20;nucleus&#x29;"" data-ordinal=""3"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul>""There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul><br>
"
"There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze"" data-cloze=""Vomiting&#x20;&#x28;Ventrolateral&#x20;medulla&#x29;"" data-ordinal=""7"">[...]</span></li></ul>""There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul><br>
"
"There are many basic actions that are moderated by <span class=""cloze"" data-cloze=""interneurons&#x20;in&#x20;the&#x20;recticular&#x20;formation"" data-ordinal=""1"">[...]</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul>""There are many basic actions that are moderated by <span class=""cloze"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul><br>
"
"There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze"" data-cloze=""Licking&#x20;&#x28;hypoglassal&#x20;nucleus&#x29;"" data-ordinal=""2"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul>""There are many basic actions that are moderated by <span class=""cloze-inactive"" data-ordinal=""1"">interneurons in the recticular formation</span>:<br><ul><li><span class=""cloze"" data-ordinal=""2"">Licking (hypoglassal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Chewing (trigeminla motor nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Sucking (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Spontaneous facial expression (Facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Swallowing (Nucleus ambiguus and Dorsal Vagal nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Vomiting (Ventrolateral medulla)</span></li></ul><br>
"
"Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze"" data-cloze=""Gag&#x20;reflex&#x20;&#x28;Nucleus&#x20;ambiguus&#x29;"" data-ordinal=""6"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul>""Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul><br>
"
"Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze"" data-cloze=""Corneal&#x20;reflex&#x20;&#x28;facial&#x20;nucleus&#x29;"" data-ordinal=""4"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul>""Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul><br>
"
"Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze"" data-cloze=""Pupillary&#x20;light&#x20;reflex&#x20;&#x28;pretectal&#x20;area&#x29;"" data-ordinal=""2"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul>""Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul><br>
"
"Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze"" data-cloze=""Vestibulo&#x2D;ocular&#x20;reflex&#x20;&#x28;paramedian&#x20;pontine&#x20;reticular&#x20;formation&#x29;"" data-ordinal=""3"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul>""Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul><br>
"
"Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze"" data-cloze=""Stapedial&#x20;reflex&#x20;&#x28;facial&#x20;nucleus&#x29;"" data-ordinal=""5"">[...]</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul>""Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul><br>
"
"Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze"" data-cloze=""Baroreceptor&#x20;reflex&#x20;&#x28;Ventrolateral&#x20;medulla&#x2F;dorsal&#x20;vagal&#x20;nucleus&#x29;"" data-ordinal=""7"">[...]</span></li></ul>""Several nuclei and interneurons modulate <span class=""cloze-inactive"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul><br>
"
"Several nuclei and interneurons modulate <span class=""cloze"" data-cloze=""reflexes"" data-ordinal=""1"">[...]</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul>""Several nuclei and interneurons modulate <span class=""cloze"" data-ordinal=""1"">reflexes</span><br><ul><li><span class=""cloze-inactive"" data-ordinal=""2"">Pupillary light reflex (pretectal area)</span></li><li><span class=""cloze-inactive"" data-ordinal=""3"">Vestibulo-ocular reflex (paramedian pontine reticular formation)</span></li><li><span class=""cloze-inactive"" data-ordinal=""4"">Corneal reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""5"">Stapedial reflex (facial nucleus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""6"">Gag reflex (Nucleus ambiguus)</span></li><li><span class=""cloze-inactive"" data-ordinal=""7"">Baroreceptor reflex (Ventrolateral medulla/dorsal vagal nucleus)</span></li></ul><br>
"
"What does alertness and memory?
"
"What allows for alertness and mood elevation?
"
"What does alertness, mood elevation, breathing control?
"
"What does just alertness?
"