Nerve Conduction and Evoked Potentials - standalone module

Program Overview

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This online neurophysiology module equips healthcare professionals with advanced knowledge and skills in electroneuromyography, including nerve conduction studies, electromyography, and evoked potential measurements. Through a blended learning approach, participants gain a comprehensive understanding of the theory and applications of these techniques, enabling them to diagnose and manage neurological disorders effectively. Graduates are well-positioned for careers as clinical neurophysiologists, electrodiagnostic technicians, or research scientists in neurophysiology.

Program Outline

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Degree Overview:

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Overview:

This online/distance learning module aims to equip healthcare professionals with advanced knowledge and skills in the clinical practice of neurophysiology, specifically in electroneuromyography. Participants will delve into the theory and applications of nerve conduction studies, electromyography, and evoked potential measurements, gaining a deeper understanding of their role in diagnosing and managing neurological disorders.

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Objectives:

• Develop a comprehensive understanding of the applied anatomy and physiology of the peripheral nervous system.
• Critically interpret and synthesize the results of evoked potentials and nerve conduction studies in the context of clinical presentations.
• Analyze and interpret electromyography results in diseases of the peripheral nerves and skeletal muscle.

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Description:

This module provides a comprehensive exploration of the theoretical foundations and practical applications of key neurophysiological techniques. Participants will gain a thorough understanding of the underlying principles, technical aspects, and clinical significance of nerve conduction studies, electromyography, and evoked potential measurements. The module emphasizes the development of critical thinking skills necessary for interpreting and applying these techniques in real-world clinical scenarios.

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Outline:

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Module Content:

• Applied anatomy and physiology of the peripheral nervous system
• Nerve conduction studies: principles, techniques, and interpretation
• Electromyography: principles, techniques, and interpretation
• Evoked potential measurements: principles, techniques, and interpretation
• Clinical applications of neurophysiological techniques in various neurological disorders
• Ethical and legal considerations in clinical neurophysiology

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Structure:

The module is delivered entirely online, allowing participants to study at their own pace and convenience. The course materials include lectures, tutorials, case studies, and interactive exercises. Participants are encouraged to actively engage with the material and participate in online discussions with their peers and instructors.

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Course Schedule:

The module spans 20 weeks, with an estimated time commitment of 10 hours per week. The course schedule is designed to be flexible and adaptable to individual learning styles and schedules.

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Individual Modules:

Each module within the program focuses on a specific aspect of neurophysiology, providing in-depth knowledge and practical skills.

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Assessment:

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Assessment Methods:

The module employs a variety of assessment methods to evaluate student learning outcomes. These may include:

• Poster submission and presentation
• Written assignments
• Case study analysis
• Online quizzes and tests

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Assessment Criteria:

Assessments are designed to measure students' understanding of the key concepts, their ability to apply their knowledge to clinical scenarios, and their critical thinking skills. The specific assessment criteria will be provided within the module materials.

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Teaching:

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Teaching Methods:

The module utilizes a blended learning approach, incorporating various teaching methods to cater to different learning styles. These methods include:

• Online lectures and tutorials
• Interactive case studies and exercises
• Group discussions and forums
• One-on-one consultations with instructors

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Faculty:

The module is taught by experienced and qualified professionals in the field of neurophysiology.

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Unique Approaches:

The module employs a variety of innovative teaching approaches, including:

• Simulation exercises for practicing clinical skills
• Virtual patient simulations for applying knowledge to real-world scenarios

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Careers:

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Career Paths:

This module equips healthcare professionals with advanced knowledge and skills necessary to pursue various career paths in clinical neurophysiology. These may include:

• Clinical neurophysiologist
• Neurophysiologist
• Electrodiagnostic technician
• Research scientist in neurophysiology

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Opportunities:

Graduates of this module are well-positioned to pursue opportunities in various healthcare settings, including hospitals, clinics, research institutions, and private practices.

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Outcomes:

• The module is designed for healthcare professionals with a minimum of 6 months of experience in using neurophysiological techniques.
• The course materials are accessible through the university's virtual learning environment, Blackboard.
• Graduates of this module will receive 15 masters level credits.