The Carrick Institute concussion/mTBI program is designed to train healthcare professionals how to understand, examine and treat sports-related concussions/mTBI. This program is one of immersive integrated clinical education designed to promote mastery of the subject area and long-term learning.
Concussion/mTBI Certification Program – Prepayment – Florida
September 13 @ 9:00 AM - September 15 @ 6:00 PM EDT$7200
Carrick Institute Concussion/mTBI Program
Goal and Learning Outcomes
The purpose of our Concussion/mTBI program is to inform healthcare providers about the incidence, symptoms, diagnosis, and treatment of sports-related concussions and the potential for serious long-term outcomes such as dementia. Completion of this program will enable the healthcare practitioner to:Design and Implement a Concussion Treatment ProgramDesign and conduct a brain and vestibular rehabilitation programDesign evidence-based treatment plansUtilize a current evidence-based examination process to quantify brain function and human performanceDefine sports-related concussions and the sports in which they are most often foundDescribe the immediate and long-term symptoms of sports-related concussionsDiscuss expert recommendations for preventing/managing sports-related concussionsPrepare health care professionals with advanced knowledge and skills in diagnosis and treatment of Concussion/mTBI.
Who this program is for.
Our primary audience is healthcare professionals including Physical Therapists, Chiropractors, Chiropractic Neurologists, Medical Physicians, Osteopaths, Acupuncturists, Neuropsychologists, Nurses, Athletic Trainers, Dentists, and allied health. Please contact us if you have any questions about your eligibility for this program.
Scholars Enrolled in the Concussion/mTBI Program Receive:
Access to Flipped Classroom for preparation before each moduleQ-stream for continued learning after each module25 hours of lecture time within each moduleMedline Access2 years of access to the digital recording after each moduleAn invitation to the private concussion/mTBI Facebook group
This program prepares our Clinical Scholars to be able to:
Create innovative clinical environments designed to manage the Concussion/mTBI patient.Learn to evaluate and create individual programs to care for patients after Concussion/mTBI.Leverage evidence-based clinical practice to create a best practice that networks with other Concussion/mTBI specialists.
Prof. Frederick R. CarrickProfessor Carrick has 40 years of clinical practice in the treatment of Concussion/mTBI. He has been described as the “Doctor to the Stars” and his pioneering work in this field has been featured on Prime Time Television, NEWS and Journals around the globe. He is sought out for Concussion/TBI treatment from Professional, Collegiate and Olympic Athletes as well as his ongoing research in the field. His experience in this knowledge area is legend as is his ability to teach difficult subject material in a fashion that promotes mastery.Professor Carrick is a Senior Research Fellow at CCMHR in association with the University of Cambridge, UK, Professor of Neurology University of Central Florida College of Medicine, Orlando, Fl, Adjunct Professor MGH Institute of Health Professional Education, Boston, MA and Dean of Graduate Studies at the Carrick Institute, Cape Canaveral, Fl.
Course Length and Format
Clinical Scholars will be immersed in an interactive learning experience designed to create long term memory and skill acquisition. The Carrick Institute training model has been researched, presented and published in the indexed scientific literature. This model is central to becoming a lifelong learner and master of clinical application.The course builds on each module and covers the entirety of information necessary to become an expert in the diagnosis and treatment of Concussion/mTBIThis is a 6-module program composed of 25 hours of lecture, flipped classroom, Q-stream, and examination for the competency of the material covered per module. This program is designed for maximal learning and retention.
Live and Live Stream
The program can be attended onsite in Cape Canaveral, Florida at the Carrick Institute Learning Center or via Internet Live Video Streaming from anywhere in the World.
Clinical Scholars who successfully complete this program and pass benchmark examinations given during each module will be awarded a Certificate of Completion from the Carrick Institute.
Designing and Implementing a Concussion Treatment ProgramOverview of Concussion/TBI, Epidemiology & Consensus UpdatesPathophysiology of Acute Concussion/mTBI and Post Concussion SyndromesThe biomechanics of Head Injury and Concussion/mTBINeurocognitive TestingExamination and Diagnosis of the Head Injury PatientTreatment of Acute and Chronic Concussion/mTBI (Return to Learn, Work, & Play)Neurophysiology of Concussion/mTBI and Post-Concussion Syndrome (PCS)Chronic Traumatic Encephalopathy (CTE)Functional Rehabilitation StrategiesHead Eye Vestibular Motion function and rehabilitationCompetency in concussion management Software useCompetency in visual system testing and eye tracking useCompetency in Concussion/mTBI EEG and Evoked Potential Training use
This course utilizes a vibrant flipped classroom and interactive educational model. Scholars will review course materials and assignments before attending the knowledge area module. This process maximizes learning so that the scholar can dedicate time specifically to the application of the knowledge area module.Each scholar will also have free access to Medline where they can search and download clinical and scientific papers. All of the information necessary for the course is located in the scholar’s learners portal. This private area is specific for the individual scholar and designed for maximum interaction and learning.
Course Curriculum by Knowledge Area Module:
TBI and Eye MovementsSensory IntegrationNeurological Compensation of Head, Neck, Postural and Visual SystemsChronic Traumatic EncephalopathyIntegration of Cortical and Subcortical StructuresCoordination of Head, Neck, Trunk and Limb FunctionsEye Movement Therapy and Carrick Eye Movement StrategiesIntegration of Multi Sensory Systems and PerceptionBest Practices Treatment of ConcussionMeasuring Human Motor and Perceptual PerformanceTesting of Balance After ConcussionUnderstanding Stability ScoresEye Movements and Sensory FeedbackMechanical Load And Eye Muscle StretchClinical Classification of Eye MovementsClinical Observational Skills and Eye Movements the ConcussionThe Functional Classes of Human Eye Movements In Concussion Diagnosis and TreatmentClinical Practicums of Vestibular, Visual Fixation, Optokinetic, Smooth Pursuit, Nystagmus Quick Phases, Saccades, Vergence And VersionsStability of Head Neck and Vision After Head InjuryClinical Understanding of Oscilopsia and Illusory Movements After ConcussionTreatment Protocols to Increase Stability of Head, Neck And Visual SystemsClinical Examination Skills and the Spatial Frequency of Visual TargetsClinical Examination Skills of Torsional Eye MovementsClinical Applications Of Retinal ActivationVisual Searching Specific to Sports And Maximizing Human PerformanceAngle of Gaze and Head, Neck FunctionDiagnosis and Treatment of Blurred Vision After ConcussionMovement and Had PerturbationsVisually Mediated Reflexes and Vestibular Ocular Reflexes During Head PurturbationsClinical Understanding Of Stabilizing and Shifting GazeClinical Neuro-Anatomical Circuitry And Functional Classes of Eye MovementsPhysical Examination and Treatment Development Based upon Functional PerformanceBiomechanical Factors Affecting the Interaction of Brain And Sensory Motor SystemsClinical Applications of The Pulse and Step of Neural IntegrationTreatment of Concussion And Orbital MechanicsPulse Step Mismatch And Clinical ApplicationsConcussion Treatments To Synthesize Velocity and Position Components Of Ocular Motor CommandsClinical Applications Involving the Process of Neural IntegrationVergence and Version Eye-Movement Neural IntegratorsClinical Applications of the Vestibular System In Concussion RehabilitationClinical Applications Of the Auto Kinetic System in Concussion RehabilitationClinical Applications of Short and Long Latency Mediated Function In Concussion RehabilitationClinical Applications Understanding the Angular VORClinical Applications Understanding The Translational VORClinical Applications of Patterns of Nystagmus In Concussion PatientsClinical Applications of Otolithic–Ocular ReflexesClinical Applications of Natural Head Movements In Concussion RehabilitationClinical Applications of Visual SaccadesRehabilitation Strategies Using Voluntary and Involuntary SaccadesClinical Understanding Of Neural Integration Between Brain and Brain StemClinical Applications of Smooth Pursuit in Visual FixationRehabilitation Strategies Using Nonvisual Environmental StimulationClinical Strategies of Eye Head and Neck MovementsUnderstanding a Three Dimensional Aspect of Eye Movements In Clinical PracticeAdaptive Control of Eye Movements In the Treatment of ConcussionClinical Attributes of Eye Movements and Spatial LocalizationAdaptive Strategies In Acute and Chronic TBI TreatmentsBrain Integration And Compensation After Concussion
Understanding How Vision Is Affected in TBIUnderstanding The Utilization Of Joint Receptor Activation In TBIUnderstanding Head Rotations, Translation And Neck IntegratorsClinical Applications of Semicircular Canals and Otolith OrgansRehabilitation Strategies Utilizing Ocular Counter RollPatterns of Head Motion And Changing Brain Integration Next LinePerturbations Of Head and Gait StrategiesClinical Applications of Visual Mediated Eye MovementsUnderstanding Skew DeviationClinical Applications of Head Rotation And Retinal MeridiansClinical Understanding of Vertical Ocular Misalignment and Foveal DisparityClinical Understanding of Head TiltVestibular Visual SymbiosisClinical Rehabilitation Strategies of Artificial MovementsUtilization of Different Targets And Backgrounds In Concussion Treatment StrategiesClinical Understanding of the Brainstem Elaboration of the VORRehabilitation Strategies Engaging Excitatory and Inhibitory Neural IntegrationUnderstanding the Primary And Accessory Neural Subgroups Of the BrainstemClinical Applications of CerebellumDiagnostic and Therapeutic Applications Of Otolithic FunctionNeural Integration Model Function And Concussion Symptoms and Performance ChallengesClinical Understanding Of Neural Integration and Gaze HoldingRehabilitation Strategies Utilizing Semicircular Canal ProtectionsThe Clinical Phenomenology Of Inhibition to Promote Function After ConcussionRehabilitation Strategies Of Ipsilateral and Contralateral Stimulation Central PathologyClinical Applications of Otolith ProjectionsUtilizing the Functional Organization Of Vestibular Ocular ResponsesClinical Understanding Of Type I and Type II Head Velocity Neural EncodersRehabilitation Strategies of Head Velocity And Eye PositionClinical Scenarios Inpatient Presentations of TBI And Central VestibulopathyClinical Understanding of Vestibular Nuclear ProcessingPatient and Clinician Interpretation Of Self Translating or TiltingClinical Rehabilitation Based upon a Neural Network ApproachClinical Applications Central to Velocity Storage MechanismHead Eye Vestibular Movement Responses to Visual StimulationClinical Application Central to Neural Substrate IntegrationConcussion Rehabilitation and Eye Position, Velocity And Rotating ChairsVestibulo Ocular Reflex Gain, Direction and PhaseClinical Determinants of Vestibulo-Ocular Reflex GainRehabilitation Strategies Using Active And Passive Head RotationConcussion and AgeRehabilitation Strategies Head Tilt and RollRehabilitation Strategies And GravityDiagnostic and Therapeutic Importance of Optokinetic nystagmusClinical Understanding of Optokinetic After-NystagmusThe Clinical Importance of the Cervical Ocular ReflexThe Clinical Importance of the Adaptive Properties of the VORConcussion Rehabilitation and HabituationThe Clinical Importance of Low and High Time Constants Of the Rotational VORConcussion Rehabilitation and VOR AdaptationConcussion Rehabilitation and Cross Axis Adaptation Of the VORConcussion Rehabilitation and Cognitive Control Of VOR AdaptationConcussion Rehabilitation and Context Specific AdaptationVestibulocerebellar Influences on the Vestibular-Ocular reflexElectrophysiological Aspects of vestibulocerebellum Control of the Vestibular Ocular ReflexRole of the Cerebellum in the Vestibulo-Ocular Reflex Adaptation
Skew Deviation & the OTR Vertical and Cyclovertical StrabismusRehabilitation Strategies Utilizing the Vertical & Torsional VORConcussion and the Pathologic OTRClinical Applications of Ipsilesional and Contralesional Head TiltPathological Skew Deviation Versus Superior Oblique PalsyParks 3-Step test with Bielschowsky Tilt TestThe Symptoms and Signs of Skew Deviation Vs S0 PalsyThe Clinical Determinants of Vestibuloocular Reflex GameConcussion Rehabilitation Using Active Versus Passive Head RotationConcussion Rehabilitation Using Fixation Of Stationary Versus Moving TargetsConcussion Rehabilitation Using Head Stationary and Head And Body RotationMovement Disorders of the Head And Neck After ConcussionClinical Understanding of Dynamic Balance of Brain Activation during Head Rotation and TranslationEwald’s Second Law (excitatory stimuli are more effective than inhibitory stimuli)Clinical Understanding of Subjective Visual VerticalDisequilibrium, Unsteadiness, And Vertigo after ConcussionUnderstanding The Perception of Self Motion And Sensory MismatchAcute Peripheral Vestibular Lesions after Head TraumaClinical confounding of Objective MeasurementsClinical Understanding of Lateral Medullary Infarction (Wallenberg Syndrome)Clinical Applications of Tests of Vestibular BalanceClinical use of Tragal Pressure, Valsalva Maneuvers, Hyperventilation, Mastoid Vibration and SoundsClinical Understanding of NystagmusGaze Preferences and Visual Compensation For Brain InjuryClinical Use of the Ophthalmoscope In Diagnosis and Treatment Of ConcussionClinical Applications to Identify a Dynamic Vestibular ImbalanceHead Impulse TestClinical Applications of Head Posture And Eye Movement ExercisesClinical Understanding of Hypoactive and Hyperactive Translational VORClinical Understanding Of Asymmetry of the Loss of the Storage With Central Brain LesionsRehabilitation Considerations of Torsional Optokinetic NystagmusClinical Utilization Of Vibration In Sensory StimuliClinical Quantification of Vestibular Gain At the BedsideDeveloping Treatment Strategies For Abnormal Gain of the Rotational VORClinical Understanding Of Head Movement and Tremor After ConcussionClinical Applications Of Corrective Lenses And VOR GainClinical Insights into Rotational Testing and TreatmentClinical Measurements of the Time Constant of the VORClinical Understanding Of Corrective SaccadesBedside OptokineticTestingClinical Understanding Of the Pathophysiology Central Vestibular Connections
Basal Ganglia Circuitry ModelsClinical Understanding of the Basal Ganglia And It’s Motor, Cognitive and Limbic CircuitryClinical Understanding of the Basal Ganglia and Visual SaccadesClinical Understanding of the NeoStriatum And Mesencephalic FunctionClinical Context Specific VOR AdaptationConcussion Rehabilitation and Recovery From Static and Dynamic Vestibular ImbalanceClinical Utilization Of Ewald’s First and Second LawsClinical Understanding of Peripheral Vestibular Lesions After Head TraumaConcussion Rehabilitation and Spatial Tuning Of Labyrinthine Efferent ActivityClinical Understanding of the Role of the Vestibular Commissure After ConcussionClinical Understanding of the Deep Cerebellar Nuclei In Concussion RehabilitationClinical Understanding of Central Neuronal Compensatory Responses And StrategiesClinical Applications Utilizing Vestibulocerebellar influences on the Vestibular-Ocular reflexUtilizing Visual Saccades in Diagnosis and Rehabilitation Of Head InjuryClinical Adaptation of Saccades And Cerebellar FunctionClinical Applications Inhibition And Excitation of SaccadesClinical Understanding of the Cerebellar Relationship to Cerebral Cortical AreasClinical Understanding of Frontal Eye Fields, Dorsolateral Prefrontal Cortex, Supplementary Motor Areas And the Parietal Lobe Specific To Visual SaccadesRehabilitation Strategies Involving Auditory and Visual Motion Signal ProcessingClinical Applications of Cerebellar Contributions To Cortical Occulomotor FunctionsClinical Understanding of Fovial And Extra Fovial Vision.Rehabilitation Strategies in the Treatment of Concussion Using Compensatory MechanismsRehabilitation Strategies Utilizing a Hierarchy Of Saccadic BehaviorUnderstanding the Functional Characteristics of Saccades After ConcussionClinical Understanding of Protective and Anticipatory SaccadesRehabilitation Using Memory Guided SaccadesRehabilitation Using AntisaccadesRehabilitation Using Command SaccadesRehabilitation Using Reflexive SaccadesRehabilitation Using Express SaccadesRehabilitation Using Spontaneous SaccadesClinical Quantification Of Saccadic Position, Velocity and AccelerationClinical Utilization of Overlap, Gap, Memory, Antisaccdic and Sequence Tasking ParadigmsClinical Relationships between the Velocity, Duration And Accuracy of SaccadesRehabilitation Strategies Using Visual Feedback After ConcussionClinical Understanding of the Main Sequence Relationships of SaccadesRehabilitation with Directed Dynamic Properties of SaccadesClinical Understanding of Asymptotic Values Of SaccadesClinical Understanding of Power Functions Describing Amplitude and Duration Relationships of SaccadesClinical Applications of Eye Acceleration And Jerk DerivativesConcussion Rehabilitation To Increase the Velocity Of SaccadesClinical Decision-Making Using Saccadic Velocity To Calculate Frontal Low IntegrityClinical Understanding of Saccadic Skewness And Wave FormsClinical Calculations of the Q Values of SaccadesClinical Examination of Phase – Plane Plots Of Eye PositionClinical Comparisons of Vertical and Horizontal Convergence MovementsClinical Understanding Of Post-Saccadic Eye Drifts And Pulse Step PhenomenologyClinical Understanding of Dynamic Over and under Shoots of SaccadesClinical Understanding Of the Planar Direction of Saccades in Rehabilitation of ConcussionClinical Phenomenology Differentiating Brainstem and Cortical Mechanisms in Saccadic GenerationClinical Understanding of Saccadic Reaction Time, Visual Processing, Target Selection and Motor ProgrammingConcussion Rehabilitation Using Gap and Overlaps StimuliConcussion Rehabilitation using Superior Colliculus PhenomenologyConcussion Rehabilitation Using AntisaccadesClinical Quantification of Ratios of Eye-Movement FunctionClinical Quantification Of Somatic and Visual Error In Rehabilitation StrategyClinical Quantification and Treatment Development of Saccadic AccuracyClinical Quantification of Visual DysmetriaClinical Quantification of Pulse Step Mismatch DysmetriaClinical Understanding and Applications Involving Post Saccadic Conjugate Or Disjunctive DriftRehabilitation Strategies Changing the Size for Luminance Of TargetsConcussion Rehabilitation Utilizing Memory Guided SaccadesConcussion Rehabilitation In Light and DarkDiagnostic & Therapeutic Importance of Amplitude & Velocity Relationships Of Eye MovementsConcussion Rehabilitation Strategies Using Sport SimulationClinical Understanding of Stochastic Processes of Compensation in Smooth PursuitConcussion Rehabilitation Using Double Step Target Jumps With SaccadesConcussion Simulation Utilizing SaccadesQuantifying the Physical Examination In Treatment Outcomes In ConcussionConcussion Simulation Utilizing Optokinetic StimulationConcussion Simulation Rehabilitation Changing Saccadic TrajectoryConcussion Simulation Rehabilitation Changing Saccadic LatencyConcussion Simulation Rehabilitation Addressing Saccadic DysmetriaConcussion Simulation Rehabilitation Addressing Saccadic Vector AbnormalitiesConcussion Simulation Rehabilitation With in a Hierarchical Organizational ParadigmConcussion Simulation Rehabilitation Of Patient Specific Job TasksConcussion Simulation Rehabilitation Utilizing Combinations of Volitional and Reflexive SaccadesConcussion Simulation Rehabilitation Of Movement DisordersConcussion Simulation Rehabilitation Strategies With Self and Directed PacingConcussion Simulation Rehabilitation Specific to Prefrontal Cortical InsultsConcussion Simulation Rehabilitation Utilizing Head Eye Vestibular Movement TherapyConcussion Simulation Rehabilitation Utilizing Blinks and Head MovementsClinical Importance of Fatique and Human Function after Head InjuryClinical Applications Utilizing Combinations of Vergence Movements and Head Neck StrategyClinical Applications Quantifying Saccade PerformanceClinical Applications to Engage The TBI Patient In Novel Evidence-Based Therapy
Smooth Pursuit and Visual FixationClinical Evaluation Of Patient Attention to Static and Moving ObjectsClinical Strategies Involving Background StimulationClinical Strategies To Enable Compensation for the Effects of Retinal Image MotionClinical Strategies to Promote Partial and Full Compensation Of Impaired Visual TrackingClinical Strategies Promoting Gaze Stability with and without Visual FixationClinical Understanding of Micro Saccades An Attention ShiftsClinical Strategies to Activate the Lateral Geniculate NucleusClinical Strategies to Utilize the Field Holding Reflex In RehabilitationClinical Strategies Utilizing Different Types of Targets in RehabilitationClinical Strategies Utilizing Parietal Lobe ActivationClinical Strategies Utilizing the Dorsolateral Pontine Nucleus And Posterior VermisClinical Simulation Rehabilitation Of Patient Performance and Quantification of Compensatory MovementsClinical Simulation Rehabilitation to Understand Visual Oscillations in Pursuit PerformanceClinical Simulation Rehabilitation Using Gap Paradigms in Fixation and PursuitClinical Simulation Rehabilitation Of Saccade Suppression TechniquesClinical Simulation Of Changing Stimuli and Predictability Of Clinician Choice In Rehabilitation ScenariosClinical Understanding Of Motion and Visual Position InformationClinical Applications Of the Waterfall IllusionClinical Applications of Designing Moving Visual StimuliClinical Applications to Decrease Patient Habituation to Their Rehabilitation TreatmentClinical Understanding of First and Second Order Motion StimuliClinical Understanding of Parafoveal TrackingClinical Simulation Rehabilitation Addressing High and Low Velocity Time MovementsClinical Simulation Rehabilitation A Visual and Somatic Target PlacementsClinical Understanding of Salience And Perceptual and Cognitive ResourcesClinical Understanding Of the Role of the Hippocampus in the Assessment of SalienceClinical Simulation Rehabilitation Utilizing Color And Target MotionClinical Simulation Rehabilitation Utilizing Stationary DistractorsClinical Understanding Of the Use of Background Changes in Concussion RehabilitationClinical Understanding of Patient Perceptions An Allusions After ConcussionClinical Simulation Rehabilitation Using The Duncker illusionClinical Simulation Rehabilitation using the Flying Bluebottle IllusionClinical Rehabilitation of Perception and Visual PursuitClinical Influence of Dynamic Properties of a Stimulus on Smooth PursuitClinical Interaction Between Pursuits and Saccades in TBI RehabilitationClinical Rehabilitation Utilizing Perception, Memory and Second Order Visual StimuliClinical Rehabilitation Utilizing Target Motion from other Sensory SystemsClinical Rehabilitation Utilizing Higher-Level Perceptual Representations of StimuliClinical Rehabiltation of Smooth Pursuit Using Predictable Target MotionClinical Rehabilitation of Anticipatory Drift and Latency TimingClinical Quantitative Measurements of Smooth Pursuit PerformanceClinical Rehabilitation Strategies using Ramp and Step Ramp StimuliClinical Rehabilitation of Smooth Pursuit AccuracyClinical Understanding of Velocity Overshoot During the Pursuit OnsetClinical Understanding of the Open Loop Preprogram Response Of Smooth PursuitClinical Skill Simulation With Sine Wave, Constant Velocity Movements And RampsClinical Skill Simulation Measuring Gain, Velocity and Phase of Visual PursuitsClinical Understanding of Pathology Involved With Deterioration of Smooth PursuitClinical Understanding of Velocity Saturation An Pursuit GainClinical Skills Simulation Of Smooth Pursuit Two Predictable and Non-Unpredictable MotionClinical Understanding and Applications of the Phenomenology Of Vision And AgeClinical Understanding and Applications of Open Loop Vestibular Eye MovementsClinical Understanding of the Adaptive Properties of Smooth PursuitClinical Skills Simulation Of Treatment of Catch up Saccades In PursuitsClinical Skills Simulation Of Changes in Motion Perception With Pursuit AdaptationClinical Understanding of the Neurobiological Substrate For Smooth Pursuit AdaptationClinical Applications Involving the Dorsal Cerebellar VermisClinical Applications Involving the Middle Temporal Visual AreaClinical Applications Involving the Cerebellar FlocculusClinical Applications Involving the Integration of the Pursuit PathwayClinical Applications Involving the Primary Visual Cortex and Smooth PursuitClinical Applications Involving the Middle Temporal Visual AreaDesigning a Treatment Plan Based on a Hypothetical Scheme For Smooth PursuitClinical Understanding of Human Homologues In Animal Brain Models
Clinical Examination of Fixation of Smooth PursuitClinical Examination Utilizing the OphthalmoscopeClinical Examination of Patient Tracking TargetsClinical Examination of Predictive Strategy And Low Pursuit GainClinical Examination of Predictive Strategy And High Pursuit GainClinical Examination and Quantification Of Directional Asymmetries of Visual PursuitClinical Examination Using Special Techniques For the Clinical Evaluation of PursuitClinical Examination Using Optokinetic StimulationClinical Examination of Slow and Quick Phases of Eye MovementClinical Examination and Cancellation or Suppression Of the Vestibulocochlear ReflexClinical Laboratory Evaluation of Fixation and Smooth PursuitClinical Applications Using PowerPoint And KeynoteClinical Applications Using Nonpredictable Step-Ramp StimuliClinical Understanding of Relationships of Latency, Acceleration, Velocity, Frequency of Ringing and Steady-State GainClinical Estimation of Gain for Constant Velocity Waveforms In Smooth PursuitClinical Utilization of Indirect Methods to Measure Smooth Pursuit PerformanceClinical Applications of Power Spectral MeasurementsClinical Applications of Quantitative Rating Scales Of PursuitCognitive Rehabilitation Of Abnormal Visual FixationCognitive Rehabilitation of Abnormal Pursuit InitiationCognitive Rehabilitation Of Abnormalities of Pursuit to Sustained Target MotionCognitive Rehabilitation Using the Relationship of Visual Fixation and Smooth Pursuant to Latent NystagmusClinical Applications Of Normal and Abnormal Fixation BehaviorClinical Understanding of Square Wave JerksClinical Understanding of Normal and Abnormal Function And ConfoundersClinical Understanding of Lesions of Secondary Visual Areas in ConcussionClinical Understandings Of Localized Cerebral Lesions After ConcussionClinical Understandings Of Lesions in the Visual Subsystem After ConcussionClinical Understanding Of Ipsilateral Contralateral Deficits Of Smooth PursuitClinical Rehabilitation Design Specific to Individual Needs and DifferencesClinical Understanding of Concussion and Unpleasant Visual And Somatic DistortionClinical Understanding of Concussion and Central Vestibular SyndromesClinical Applications Specific to Torsional Nystagmus, Skew Deviation, Ocular Torsion, Tilts of Head, Body, and the Perceived VerticalClinical Application Is Directed to a Tonic Imbalance In All PlanesClinical Understanding Of Lesions from the Vestibular Nuclei to the Occulomotor Nuclei And Integration Centers in the Pons And Rostral MidbrainClinical Understanding of Lesions of the Vestibular Cerebellum, Thalamus, Multisensory Vestibular CortexClinical Applications Involving Occulomotor, Perceptual And Postural TherapiesClinical Applications Of Super Nuclear or Nuclear Ocular Motor DisordersClinical Understanding of the Parietal Insular Vestibular CortexClinical Understandings of the Neuronal Pathways That Mediate the VORClinical Applications and Differential Diagnosis Of Peripheral and Central LesionsClinical Rehabilitation Applications To Avoid Compensatory MechanismsClinical Understanding of Sensory Mismatch and Therapy DevelopmentClinical Simulation Skills Developing Concussion TreatmentsClinical Simulation Skills Involving Autonomic Nervous System Complaints