Neurology - Chiropractic Doctor



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Neurology 148 : Parkinsons Disease - Specific Rehabilitation Protocols
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


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  • Explore cutting-edge cognitive rehabilitation techniques that enhance brain function and recovery.
  • Develop personalized strategies to address individual cognitive challenges and improve overall mental agility.
  • Gain clinically applicable experience with innovative tools and technologies that support cognitive rehabilitation practices.
  • Foster a collaborative learning environment to share insights and best practices for effective cognitive rehabilitation.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WYWyoming
  • YTYukon

Neurology 147 : Non-Invasive Stimulation of Deep Brain Targets
2.0

George Kukurin, DC, DACAN

$40.00 USD

AudioVisual Course


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  • Use the function of various deep brain structures  to formulate treatment strategies for patients suffering with Parkinson’s Disease based on the latest studies.
  • Match specific non-invasive  techniques to target precise deep brain structures  in Parkinson’s Disease patients.
  • Discuss the physiological effects of deep brain activation techniques and their applications to the care of Parkinson’s Disease patients.
  • Apply specific techniques related to activation of the Pedunculopontine, Globus Pallidus, Subthalamic Nucleus  and VIM to the rehabilitation of patients wih Parkinson’s Disease.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WYWyoming
  • YTYukon

Neurology 146 : Neuromodulation: Specific rehabilitation protocols
2.0

George Kukurin, DC, DACAN

$40.00 USD

AudioVisual Course


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  • Apply available non-invasive neuromodulation techniques to formulate therapeutic targets for patients suffering with Parkinson’s Disease based on the latest studies.
  • Match specific non-invasive neuromodulation techniques to target precise physical impairments in Parkinson’s Disease patients.
  • Discuss the physiological effects of non-invasive neuromodulation techniques and their applications to the care of Parkinson’s Disease patients.
  • Use vagal nerve stimulation, galvanic vestibular stimulation,  transcutaneous spinal cord stimulation, rhythmic auditory stimulation and other neuromodulation techniques to assist in the rehabilitation of Parkinson’s Disease patients.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WYWyoming
  • YTYukon

Neurology 145 : N145, Neurogenesis and neurotrophic factors
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


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  • Apply neurotrophic factors to formulate therapeutic targets for patients suffering with Parkinson’s Disease based on  studies of the effect of natural substances on neurotrophic enhancement.
  • Match specific herbal and natural formulas to target precise neurotrophic pathways.
  • Map out the function of BDNF, GDNF, CDNF, MANF and Nurr-1 related to the proliferation, migration, maturation and functional connection of neural stem cells.
  • Utilize specific natural substances for their potential to reverse pathology related to Parkinson’s Disease through the stimulation of neurogenesis.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WYWyoming
  • YTYukon

Neurology 144 : Parkinson Disease: SARM1 Pathway, Prion Pathology
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Apply an understanding of NAD+  metabolism to formulate therapeutic targets for patients suffering with Parkinson’s Disease based on  studies of the effect of natural substances on neurodegeneration.
  • Match specific herbal and natural formulas to target precise pathways related to neuroprotection.
  • Formulate Parkinson’s Disease specific strategies to suppress SARM1 and DLK neurodegeneration pathways.
  • Discuss the similarities between alpha synuclein molecules and prion proteins.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WYWyoming
  • YTYukon

Neurology 143 : Neurodegeneration: a-Synuclein Neuroinflammation
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Apply knowledge of alpha synuclein metabolism to formulate targets for patients suffering with Parkinson’s Disease based on studies of the effect of natural substances on alpha synuclein pathology.
  • Match specific herbal and natural formulas to target precise defects in the pathological metabolism of alpha synuclein in Parkinson’s Disease.
  • Map out the complex life cycle of alpha synuclein with specific emphasis on known defects that create pathological inclusion bodies in neurons of Parkinson’s Disease patients.
  • Recognize natural substances for their potential to reverse pathology related to misfolded alpha synuclein molecules.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WYWyoming
  • YTYukon

Neurology 142 : Neurobiology: Biomarkers Foundation for Treatment and Rehabilitation
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Develop a comprehensive understanding of common biomarkers relative to Parkinson's disease patients.
  • Explore the utility of Cystatin C relative to Parkinson's patients
  • Analyze the newly released Neurofilament Light Chain biomarker and its role in Parkinson's disease patients.
  • Examine the role of glial cells in the pathophysiology of Parkinson's disease and investigate the potential of the S100B protein as a biomarker for tissue damage in Parkinson's disease patients.
  • Gain insights into the significance of glial cells in the pathophysiology of Parkinson's disease and evaluate the efficacy of the S100B protein as a biomarker for tissue damage in individuals suffering from Parkinson's disease.
  • Make appropriate referrals to Medical Doctors for Parkinsons Patients

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WYWyoming
  • YTYukon

Neurology 141 : Introduction and overview, Parkinson's Disease rating scales A
2.0

George Kukurin, DC, DACAN

$40.00 USD

AudioVisual Course


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  • Classify a Parkinson's disease patient using the H and Y scale
  • Formulate a specific treatment plan for musculoskeletal symptoms experienced by an individual patient.
  • Use the Parkinson's Autonomic Rating Scale to formulate a treatment plan for non-motor symptoms of Parkinson's disease.
  • Recognize and utilize the three main staging and scoring scales of the conditions.
  • Utilize the three major components of the Unified Parkinson's Disease Rating Scale to formulate a specific treatment plan for your patient.
  • Understand how the autonomic scoring scale for Parkinson's overlaps and interacts with the Unified Parkinson's Disease Rating Score.
  • Combine the rating scales to formulate a stage for disability for the Parkinson's patient.
  • Utilize the United Parkinson's Rating Scale to craft a patient-specific rehabilitation program.
  • Recognize Parkinsons and refer to appropriate healthcare providers as indicated.

Approved States/Territories
  • AKAlaska
  • ASAmerican Samoa
  • AEArmed Forces all AE
  • AAArmed Forces Americas
  • APArmed Forces Pacific
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FMFederated States of Micronesia
  • FLFlorida
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MHMarshall Islands
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NCNorth Carolina
  • NDNorth Dakota
  • MPNorthern Mariana Islands
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PWPalau
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WYWyoming
  • YTYukon

Neurology 140 : Innovative and practical applied clinical neuroscience applications for ADHD patients
2.0

IACN Guest Instructor

$40.00 USD

AudioVisual Course


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  • Recall classifications of neurodevelopmental disorders.
  • Itemize the four-step approach to management of ADHD.
  • Administer sensorimotor integration techniques – Interactive Metronome.
  • Assess balance and posture and implement rehabilitation.
  • Observe eye movement abnormalities and implement therapeutic protocols.

Approved States/Territories
  • AKAlaska
  • ARArkansas
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 139 : Concussion - Signs and Symptoms
1.0

IACN Guest Instructor

$20.00 USD

AudioVisual Course


More Course Information ▶
  • List common symptoms and physical examination findings that are seen with concussions and mild traumatic brain injuries.
  • Recognize red flags and referrals needed in patients diagnosed with concussion.
  • Implement tools like the CDC’s Acute Concussion Evaluation into the patient interview.
  • Utilizef advanced imaging and diagnostic testing used for the diagnosis of concussion and pathologies that resemble concussion.
  • Identify specific findings from the patient interview and examination that led to the diagnosis of other co-occurring pathologies

Approved States/Territories
  • AKAlaska
  • ARArkansas
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

IACN Guest Lecturer: Felicia Danio, DC, DIBCN

Neurology 138 : The Neurological Physiological Lesion
2.0

David Taylor, DC, DABCN, FIACN

$40.00 USD

AudioVisual Course


More Course Information ▶
  • Define physiological lesion & functional lesion
  • Differentiate an anatomical pathology from physiological pathology
  • Recognize the debate on it’s validity
  • Apply the defined lesions to current known brain pathologies
  • Illustrate the physiological lesion in known cord pathologies
  • Demonstrate how the lesions can be measured
  • Examine the applications to manipulative therapy
  • Investigate clinical application
  • Evaluate the validity of the theory to chiropractic applications.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 137 : Small Fiber and Chemotherapy-Induced Neuropathy Management - Part 5
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Formulate a viable alternative treatment for chemotherapy induced neuropathy.
  • Offer guidance to patients on how they may prevent or reduce the severity of chemotherapy induced neuropathy.
  • Utilize various forms of nervous system  stimulation as a substitute for  acupuncture.
  • Apply techniques for determining where nerves are attempting to heal and formulate a treatment strategy designed to accelerate nerve repair.
  • Choose the most beneficial type of stimulation and the optimal locations where stimulation should reduce  symptoms and promote nerve repair in chemotherapy induced neuropathy.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 136 : Small Fiber and Chemotherapy-Induced Neuropathy Management - Part 4
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Draw the components of the Central Autonomic Network
  • Relate the effects of brain lateralization and asymmetry to sympathetic-parasympathetic balance and tone.
  • Apply the technique of High Voltage Galvanic stimulation to create a non-invasive Stellate Ganglion Block.
  • Apply Lo-TENs to transcutaneously perform Vagal Nerve Stimulation.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 135 : Small Fiber and Chemotherapy-Induced Neuropathy Management - Part 3
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Discuss how small fiber nerve dysfunction may contribute  to painful conditions commonly seen in chiropractic practice.
  • Apply the Thermal Grill to evoke Conditioned Pain Modulation and Offset Analgesia to relieve neuropathy pain.
  • Utilize techniques to treat deafferentation pain.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 134 : Small Fiber and Chemotherapy-Induced Neuropathy Management - Part 2
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Obtain the most appropriate diagnostic tests  for their patients suspected of suffering from small fiber neuropathy
  • Implement the use of serum biomarkers for the management of small fiber neuropathy
  • Utilize hair analysis for heavy metals, in cases of chemotherapy induced peripheral neuropathy
  • Implement a nutritional detox strategy for the elimination of heavy metals in patients suffering from peripheral neuropathy
  • Institute a nutritional strategy to elevate NAD+  or to down regulate NAMPT to protect axons from degeneration in cases of peripheral neuropathy.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 133 : Small Fiber and Chemotherapy-Induced Neuropathy Management - Part 1
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Relate the effects of chemotherapy to the development of neuropathy.
  • Draw the pathways specific to Lamina I versus Lamina V sensory pathways.
  • Discuss basic science research that links Na, Ca and TRPA1 ion channels with hyper-excitability of sensory neurons.
  • Apply Lo-TENs over acupuncture points known to down regulate TRPA1 and PKC for the treatment of neuropathy.
  • Utilize natural substances that modulate ions channels related to neuropathy.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 132 : Receptor Based Solutions for Your Application
5.0

Michael Allen, DC, NMD, DIBAK, DABCN, FACFN

$100.00 USD

Downloadable Course in PDF, Text


More Course Information ▶
Hour1
  • Describe the types of muscle fibers and how they respond to deaffrentation
  • Outline the anatomy of the cerebellum
  • Explain the function of the various areas of the cerebellum

Hour 2

  • Outline the afferent cerebellar pathways
  • Describe the efferent cerebellar pathways and their interconnections
  • Summarize the blood supply to the cerebellum and brain stem

Hour 3

  • Describe the relationship between cerebellar output and autonomic function
  • List the signs of pathological cerebellar expression
  • Explain the concept of surround inhibition

Hour 4

  • Recognize how variations in functional muscle testing procedure will yield different clinical information
  • Explain the difference is the influence of uniarticulate muscles versus multiarticulate muscle on stability and affrentation
  • Describe the normal responses of the primitive reflexes

Hour 5

  • Explain the role of the pyramidal and extrapyramidal systems
  • Select appropriate procedures to test for pyramidal distribution of weakness
  • Describe exercises to address pyramidal distribution of weakness
  • Recognize the foundational concept of receptor input
  • Explain the role of the primitive reflexes as a diagnostic tool
  • Summarize how functional manual muscle testing can reveal the presence of deaffrentation

 


Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 131 : Receptor Based Solutions for Your Patients
4.0

Michael Allen, DC, NMD, DIBAK, DABCN, FACFN

$80.00 USD

Downloadable Course in PDF, Text


More Course Information ▶

Hour 1

  • Explain how the balance system depends on symmetrical input
  • Describe the relationship between the deep tendon monosynaptic reflexes and posture control
  • Explain the importance of the tonic neck reflexes to posture and functional assessment

Hour 2

  • Describe the flexion and extension synergistic patterns
  • Explain the function of the flexor withdrawal reflex in relation to central pattern generators
  • Outline the role of the Galant reflex in postural control

Hour 3

  • Explain the relationship between the flexor withdrawal reflex and the crossed extensor reflex.
  • Describe the anticipated response in testing the upper Galant reflex
  • Outline the normal display of the tonic lumbar reflex

Hour 4

  • Explain the etiology of cortical release signs
  • Describe the determinant of posture
  • Outline the test for normal stance and gait and analyze the results

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 130 - 132
11.0

Michael Allen, DC, NMD, DIBAK, DABCN, FACFN

$220.00 USD

Downloadable Course in PDF, Text


More Course Information ▶
Hour 1
  • Describe the importance of the primitive reflexes
  • Explain the role of fundamental patterns
  • Summarize the generation of cortical release signs
Hour 2
  • Diagram the muscle – brain interactions and the hypothalamus – hormonal feedback loop
  • Define deaffrentation
  • Explain spinal dyscoupling and its effect on the neuraxis

Hour 3

  • Explain how the balance system depends on symmetrical input
  • Describe the relationship between the deep tendon monosynaptic reflexes and posture control
  • Explain the importance of the tonic neck reflexes to posture and functional assessment

Hour 4

  • Describe the flexion and extension synergistic patterns
  • Explain the function of the flexor withdrawal reflex in relation to central pattern generators
  • Outline the role of the Galant reflex in postural control

Hour 5

  • Explain the relationship between the flexor withdrawal reflex and the crossed extensor reflex.
  • Describe the anticipated response in testing the upper Galant reflex
  • Outline the normal display of the tonic lumbar reflex

Hour 6

  • Explain the etiology of cortical release signs
  • Describe the determinant of posture
  • Outline the test for normal stance and gait and analyze the results
Hour 7
  • Describe the types of muscle fibers and how they respond to deaffrentation
  • Outline the anatomy of the cerebellum
  • Explain the function of the various areas of the cerebellum

Hour 8

  • Outline the afferent cerebellar pathways
  • Describe the efferent cerebellar pathways and their interconnections
  • Summarize the blood supply to the cerebellum and brain stem

Hour 9

  • Describe the relationship between cerebellar output and autonomic function
  • List the signs of pathological cerebellar expression
  • Explain the concept of surround inhibition

Hour 10

  • Recognize how variations in functional muscle testing procedure will yield different clinical information
  • Explain the difference is the influence of uniarticulate muscles versus multiarticulate muscle on stability and affrentation
  • Describe the normal responses of the primitive reflexes

Hour 11

  • Explain the role of the pyramidal and extrapyramidal systems
  • Select appropriate procedures to test for pyramidal distribution of weakness
  • Describe exercises to address pyramidal distribution of weakness
  • Recognize the foundational concept of receptor input
  • Explain the role of the primitive reflexes as a diagnostic tool
  • Summarize how functional manual muscle testing can reveal the presence of deaffrentation

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Course Group includes all Neurology Courses numbered 130 thru 132

Neurology 130 : Receptor Based Solutions for Your Edification
2.0

Michael Allen, DC, NMD, DIBAK, DABCN, FACFN

$40.00 USD

Downloadable Course in PDF, Text


More Course Information ▶
Hour 1
  • Describe the importance of the primitive reflexes
  • Explain the role of fundamental patterns
  • Summarize the generation of cortical release signs
Hour 2
  • Diagram the muscle – brain interactions and the hypothalamus – hormonal feedback loop
  • Define deaffrentation
  • Explain spinal dyscoupling and its effect on the neuraxis

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 129 : Motor Control in Chiropractic Practice
1.0

Dean Smith, DC, PhD

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Identify the domains of and concepts within motor control
  • Outline some research on chiropractic's influence on motor control
  • Discuss principles of motor control and rehabilitation applied to practice

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 128 - 129
4.0

multiple

$80.00 USD

AudioVisual Course


More Course Information ▶

Hour 1

  • Identify and recite all components of the neurological examination 
  • Outline basic peripheral and central nervous system pathways that are clinically relevant to the bedside (ambulatory) neurological examination.
  • Perform an examination of the cranial nerve and somatic motor system, including aspects of strength, tone and volume.

Hour 2

  • Perform an examination of the cranial nerve and somatic sensory system, including sensory testing of deep and superficial CNS pathways.
  • Perform an examination of the reflex system, including testing of deep, superficial, visceral and pathological reflexes.

Hour 3

  • Perform an examination of the movement, balance and coordination systems, including tests of cerebellar function.
  • Demonstrate an examination flow and performing tests taking the patient from sitting to standing, to the supine and prone positions.
  • Summarize implications of neurological findings for lesions in various parts of the central nervous system.
  • Summarize implications of neurological findings for lesions in various parts of the peripheral nervous system.
Hour 4
  • Identify the domains of and concepts within motor control
  • Outline some research on chiropractic's influence on motor control
  • Discuss principles of motor control and rehabilitation applied to practice

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • GAGeorgia
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 128 : The Neurological Evaluation: What You Need to Know (And Why You Need to Know It)
3.0

Joseph Ferezy, DC, DACAN, FIACN

$60.00 USD

AudioVisual Course


More Course Information ▶

Hour 1

  • Identify and recite all components of the neurological examination 
  • Outline basic peripheral and central nervous system pathways that are clinically relevant to the bedside (ambulatory) neurological examination.
  • Perform an examination of the cranial nerve and somatic motor system, including aspects of strength, tone and volume.

Hour 2

  • Perform an examination of the cranial nerve and somatic sensory system, including sensory testing of deep and superficial CNS pathways.
  • Perform an examination of the reflex system, including testing of deep, superficial, visceral and pathological reflexes.

Hour 3

  • Perform an examination of the movement, balance and coordination systems, including tests of cerebellar function.
  • Demonstrate an examination flow and performing tests taking the patient from sitting to standing, to the supine and prone positions.
  • Summarize implications of neurological findings for lesions in various parts of the central nervous system.
  • Summarize implications of neurological findings for lesions in various parts of the peripheral nervous system.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 127 : Trophic Subluxation Theory and How it Affects Your Patient
1.0

David Taylor, DC, DABCN, FIACN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Define the trophic model
  • Describe the pathology of trophic model to your patients
  • Apply the trophic model of subluxation into clinical practice
  • Detect signs & symptoms that correlate with the trophic model
  • Extrapolate the model to patient care, especially maintenance manipulative therapy.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 126 - 127
6.0

David Taylor, DC, DABCN, FIACN

$120.00 USD

AudioVisual Course


More Course Information ▶

Hour 1 - 5

  • Recognize Traumatic Brain Injury (TBI) in your chiropractic patients
  • Summarize the prevalence in your patient population
  • Identify the type of patient that presents with TBI
  • Explain why a chiropractor needs to differential diagnose TBI patients
  • Compile correlations of TBI inciting factors with your patient presentations
  • Demonstrate the pathology that occurs with TBI
  • Classify the grades of TBI and discriminate what can be treated conservatively
  • Identify the incidence of injuries that commonly cause TBI
  • Evaluate the probability of TBI in your patient
  • Describe the many different types of evaluations, in the field, in the office and upon referral
  • Implement in-office Screening Tools and apply diagnostic criteria
  • Identify the risk of post-concussive syndrome
  • Detect patients with “Brain Cognitive Reserve”
  • Identify Second Impact Syndrome
  • Assess the value of MRI
  • Identify Chronic Traumatic Encephalopathy
  • Integrate the current concepts of conservative treatment
  • Design Cognitive Rehab
  • Provide appropriate patient advice, treatment or referral options

Hour 6

  • Define the trophic model
  • Describe the pathology of trophic model to your patients
  • Apply the trophic model of subluxation into clinical practice
  • Detect signs & symptoms that correlate with the trophic model
  • Extrapolate the model to patient care, especially maintenance manipulative therapy.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Course Group includes all Courses numbered 126 thru 127

Neurology 126 : Neurological Conditions in Chiropractic Practice
5.0

David Taylor, DC, DABCN, FIACN

$100.00 USD

AudioVisual Course


More Course Information ▶
  • Recognize Traumatic Brain Injury (TBI) in your chiropractic patients
  • Summarize the prevalence in your patient population
  • Identify the type of patient that presents with TBI
  • Explain why a chiropractor needs to differential diagnose TBI patients
  • Compile correlations of TBI inciting factors with your patient presentations
  • Demonstrate the pathology that occurs with TBI
  • Classify the grades of TBI and discriminate what can be treated conservatively
  • Identify the incidence of injuries that commonly cause TBI
  • Evaluate the probability of TBI in your patient
  • Describe the many different types of evaluations, in the field, in the office and upon referral
  • Implement in-office Screening Tools and apply diagnostic criteria
  • Identify the risk of post-concussive syndrome
  • Detect patients with “Brain Cognitive Reserve”
  • Identify Second Impact Syndrome
  • Assess the value of MRI
  • Identify Chronic Traumatic Encephalopathy
  • Integrate the current concepts of conservative treatment
  • Design Cognitive Rehab
  • Provide appropriate patient advice, treatment or referral options

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 125 : Neuromodulation and Balance
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Compared and contrast galvanic vestibular stimulation and Tone Burst Vestibular Stimulation in the treatment of the balance impaired patient.
  • Apply the polarity specific effects of the anode and cathode on the vestibular system for amelioration of common balance impairments.
  • Identify the anatomical location of electrode placement for Galvanic Vestibular Stimulation.
  • Create a treatment strategy using Tone Bursts based on physiological pairing of semicircular canals.
  • Apply Specific Tone Protocols based on Saccule versus Utricle dysfunction in balance impaired patients.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 124 : Neuromodulation with tDC
2.0

George Kukurin, DC, DACAN

$40.00 USD

AudioVisual Course


More Course Information ▶
  • Communicate the risks, potential benefits and the investigational nature of tDC with a potential patient for the purpose of securing a written informed consent prior to treatment
  • Understand the similarities and differences between low voltage direct current and high voltage pulsed galvanic and how to apply knowledge of their polarity specific effects in clinical neuromodulation
  • Identify brain targets for neuromodulation and construct a therapeutic electrode montage, treatment protocol in terms of intensity, duration, frequency and dose of tDC 
  • Explain the theory of tDC as it relates to pain modulation based on contemporaneous scientific literature
  • Apply tDC  as an adjunct procedure to assist in intractable pain relief

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 123 : Neuromodulation with Galvanic Vestibular Stimulation (GVS)
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Discuss the history of GVS and the historic use of GVS as diagnostic procedure.
  • Identify the effects of GVS on the nervous system and use this information to construct an effective clinical protocol for his/her patient
  • Apply GVS as an adjunct procedure to assist in balance rehabilitation.
  • Understand and apply GVS as part of a comprehensive strategy for the treatment of neuropathic pain syndromes.
  • Create a treatment protocol in terms of electrode placement, intensity, duration and precautions for the use of GVS in clinical practice.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon

Neurology 122 : Trans-spinal Direct Current Stimulation (ts-DC)
1.0

George Kukurin, DC, DACAN

$20.00 USD

AudioVisual Course


More Course Information ▶
  • Understand the differences and similarities between TENs, low voltage and high voltage galvanic and be able to use this knowledge to select the most appropriate type to stimulation for use in ts-DC applications
  • Apply precautions, other safety considerations and informed consent when administering high voltage galvanic stimulation for non-invasive spinal cord stimulation.
  • Craft evidence-based treatment strategies using ts-DC stimulation for pain control and modulation of both ascending sensory and descending motor pathways based on recently published literature on central nervous systems effects of direct current stimulation.
  • Be able to select optimal electrode placement for ts-DC based on clinical presentation of the patient
  • Understand the basic technique for non-invasive Stellate Ganglion transcutaneous stimulation and its possible application for sympathetic maintained pain.

Approved States/Territories
  • AKAlaska
  • BCBritish Columbia
  • COColorado
  • CTConnecticut
  • DEDelaware
  • DCDistrict of Columbia
  • FLFlorida
  • GAGeorgia
  • GUGuam
  • IDIdaho
  • ILIllinois
  • INIndiana
  • IAIowa
  • KSKansas
  • KYKentucky
  • MEMaine
  • MBManitoba
  • MDMaryland
  • MAMassachusetts
  • MIMichigan
  • MNMinnesota
  • MOMissouri
  • MTMontana
  • NENebraska
  • NBNew Brunswick
  • NHNew Hampshire
  • NJNew Jersey
  • NMNew Mexico
  • NYNew York
  • NCNorth Carolina
  • NDNorth Dakota
  • NSNova Scotia
  • OHOhio
  • ONOntario
  • OROregon
  • PRPuerto Rico
  • RIRhode Island
  • SCSouth Carolina
  • SDSouth Dakota
  • TNTennessee
  • UTUtah
  • VTVermont
  • VIVirgin Islands
  • VAVirginia
  • WAWashington
  • WVWest Virginia
  • WYWyoming
  • YTYukon