Academy of Chiropractic Personal Injury & Primary Spine Care Program

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From the Desk of Dr. Mark Studin
Academy of Chiropractic
Preamble: many of these issues are small, yet each issue is just that… an issue. If you take care of the small issues, then the larger issues often take care of themselves and you can focus on the larger issues… a larger, more profitable practice and more family time.

“A More Powerful Way to Communicate Your New CV Entries”

“If you don’t toot your own horn… who will?  How will the know?” Mark Studin 2017



I am “upping the game” on communicating your new CV entries. After my presentation last week at the trial lawyers association I had approximately 200 lawyers not give a crap about Colossus and salivate over my credentials. What I learned was they loved some citations, but didn’t understand others, nor how to use them.
 
This does not by any means suggest that Colossus isn’t important, it just isn’t the one that will get you on the “inside” with lawyers. Colossus is what you use ONCE YOU ARE ON THE INSIDE and your CV is the #1 avenue to get on the inside. It is also why this program works so well, while others are still looking for the “gimmick” or “get rich quick” plans.

 
The following is the new language for your CV using an example of my latest CV entries and I will be sending this to the lawyers who are my referral sources. Please note the second paragraph is an explanation of the course I took and teaches the lawyer how to use the credential and ME. I will NOT be creating these for you. You must understand the material enough to be able to explain how they can use it in one or two sentences. This will also help you understand to a greater degree, the needs of your referral sources… The lawyers. Keep it brief or they will NOT READ IT!

The following new citation was added to my CV today for your records: To view my entire CV, please CLICK HERE
This credential will allow me to opine in causality in crashes. It allows me to reconstruct an accident and then analyzing energy dynamics to determine forces transferred from the bullet car to the occupant car to the occupant in certifying causality.


Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 2, Analyzing the integration of collision reconstruction and spinal biomechanics utilizing a mathematical model. Understanding the model and transference of energy from the bullet car to the target car to the occupant to aberrant spinal biomechanics, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 2, Understanding the mathematical models required to analyze a collision and create coefficients of forces transferred in a collision that effect the automobile and the occupant, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 3, Calculation worksheets in the mathematical models required to analyze a collision and create coefficients of forces transferred in a collision that effect the automobile and the occupant, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 4, An analysis of vehicle parts and construction design that contribute to the energy translated to the human body and spine inclusive of seatbelts, airbags, bumpers, event data recorders, tires, axles and auto frames, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 5, When correlating crash to injury, inspecting the vehicle for evidence of damage to verify causality and extent of malformation of the vehicle beyond that of the outer shell of the vehicle, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 6, Newton's laws of inertia and the determinant calculations required based upon the action of the vehicle and how spinal biomechanics are effected. Analyzing the vehicle and accident site to reconstruct the actions of the car to create a model, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 7, Reconstructing and calculating minimal speed and velocity as injury and damage factors based upon skid marks considering coefficients of friction based upon various road surfaces, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Collision Reconstruction & Biomechanical Engineering - Part 8, Reconstructing and calculating speed and velocity as injury and damage factors based upon yaw marks considering coefficients of friction based upon various road surfaces, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 9, Coefficients of momentum and calculating plastic vs. elastic deformation. Direction of forces as mathematical determinants of collision and resultant bodily injury forces, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 10, Coefficients of acceleration, negative acceleration and G-forces in collisions that contribute to vehicular and bodily injuries. Analyzing time, speed and weight of bullet and target automobiles to reconstruct the energy of a collision and injury potential, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 11, The osseous and ligamentous structures that are subject to pathology in bodily injury. The pathological reaction of connective tissue when it exceeds its paraphysiological limits and the bio-neuro-mechanical changes the connective tissue undergoes as sequella to trauma, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 12, Energy and momentum coefficients and data utilized as determinants and error ranges in calculations. Considering the stiffness of the vehicle, air bag function and formulation of timing in its release point and injury potential to facial and spinal structures, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 13, Mathematical worksheet reviewing kinetic and work energy, momentum, acceleration and G-forces in numerically quantifying a collision, the energy created to deform an automobile and the transference of forces creating connective tissue pathology and altered spinal biomechanics, Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 14, Analyzing a sample accident (case 1) utilizing all the vehicle, road surface combining standardized calculation variables in reconstructing an accident and the resultant energy considered for connective tissue pathology and resultant aberrant spinal biomechanics Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 15, Analyzing a sample accident (case 2) utilizing all the vehicle, road surface combining standardized calculation variables in reconstructing an accident and the resultant energy considered for connective tissue pathology and resultant aberrant spinal biomechanics Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017

Clinical Instructor, Collision Reconstruction & Biomechanical Engineering - Part 16, Analyzing a sample accident (case 3) utilizing all the vehicle, road surface combining standardized calculation variables in reconstructing an accident and the resultant energy considered for connective tissue pathology and resultant aberrant spinal biomechanics Academy of Chiropractic Post-Doctoral Division, Texas Chiropractic College, Long Island NY, 2017



Respectfully,



Mark Studin DC, FASBE(C), DAAPM, DAAMLP

Adjunct Associate Professor of Chiropractic, University of Bridgeport, College of Chiropractic
Adjunct Professor, Division of Clinical Sciences, Texas Chiropractic College
Educational Presenter, Accreditation Council for Continuing Medical Education Joint Partnership with the State University of New York at Buffalo, School of Medicine and Biomedical Sciences

Academy of Chiropractic
US Chiropractic Directory
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