About Us

Finger Weights apply the basic principles of progressive resistance training as a means to increase gentle range of motion, endurance, flexibility, dexterity, precision, and overall strength. They provide proprioceptive and kinesthetic input so the person can better sense the position of their fingers and the movement of their fingers.

Our Story
Physician with Finger Weights
Who are we

Meet our team

Over 20 years of experience in their respective fields.
Geniffer Geller
Geniffer Geller

M.D. – Medical

  • Director of Radiology, Westmed Medical Group
  • M.D., Duke University School of Medicine, 1995
  • Residency: Northwell, 2000
  • Fellowship, Body Imaging – Brigham and Woman’s Hospital, 2001
Pat Morgan
Pat Morgan

Engineering

  • President and Chief Engineer, Allied Engineering LLC
  • B.S., Northern Illinois University, 1987
  • 20+ years as a mechanical engineering professional designing complex integrated parts and devices for the medical, biopharma, and aerospace industries
  • CAD expert with strong knowledge of plastics, machine design, simulation, and manufacturing processes
  • alliedengineeringllc.com
Tatiana Moroz
Tatiana Moroz

Compliance

  • 20+ years providing full-service financial management to a multilingual clientele specializing in tax preparation, financial planning, and business consulting
  • Certified Public Accounting (CPA) and Enrolled Agent (EA) services
  • Team members hold a Master’s Degree in Economics, St. Petersburg University of Water Communications (St. Petersburg, Russia), and a Bachelor’s Degree in Accounting from DePaul University
  • www.tmaccountant.us
Our Story

How did we
get here?

Finger Dynamics designs and manufactures precision exercise equipment used to improve performance, prevent injury, and rehabilitate the musculoskeletal system of the hand, wrist, and forearm that control finger and thumb movements. 


Torque equals force times distance (T = f X d). The efficacy of our products is based on the lever, a simple machine that produces increased weight load the greater the distance the force or weight is from its fulcrum or pivot point. We measure weight in fractional ounces and grams, combining human biomechanics with physics.