The Point Digit: A Ratcheting Prosthetic Finger Using Advanced Rapid Manufacturing Technology Project Summary / Abstract The goal of the proposed project is to develop and commercialize a purely mechanical, ratcheting prosthetic finger ? the Point Digit ? which 1) has an industry leading strength to weight ratio, 2) can be operated unilaterally (one-handed), 3) offers anatomical rotation and flexion around the patient?s metacarpophalangeal (MCP) joint, and 4) can be custom-made for each patient using advanced metal 3D printing technology. The care of upper limb amputees requires a highly individualized approach to medicine. Each patient brings unique needs to the clinic including various levels of amputation, lifestyles, personal experience, and other medical indicators. Prosthetists and occupational therapists work with each patient to provide a personalized medical solution using whatever components and technologies are available on the open market. Very often, the bottleneck in this system is the development of clinically sound prosthetic components that can be readily sourced by the prosthetists to provide an optimal prosthetic limb system. The largest population of upper limb amputees are those with partial hand amputations. This population outnumbers all other levels of upper limb amputees by a factor of 10. Therefore, we can make a significant clinical impact if a product serves this population effectively. However, current commercial products for partial hand amputees do not satisfy all of the needs of these patients; passive fingers are seen as being fragile and difficult to use while powered fingers are expensive and require additional components like batteries and electronics that can be cumbersome to the user. In this Fast Track effort, we propose to 1) internally verify the Point Digit through a battery of mechanical tests, 2) validate the user needs of the Point Digit with partial hand amputees for regulatory requirements and 3) assess the utility of the Point Digit through a clinical take-home study of partial hand amputees. The mission of Point Designs LLC is to innovate devices and algorithms in the field of upper limb prosthetic design. We develop products that provide prosthetists and patients with solutions to meet the unique needs of each patient in this dynamic and challenging healthcare setting. The Point Digit will provide an effective and durable solution for many upper limb amputees with finger loss and ensure their ability to enjoy their work, family, and life to the fullest.

Public Health Relevance

? Point Designs LLC Point Designs LLC proposes to develop and commercialize a purely mechanical, ratcheting prosthetic finger ? independent from electronics and batteries, thereby reducing cost, size, and complexity while increasing reliability and durability ? that can be custom-made for each patient using advanced metal 3D-printing technology. The amputation of full or partial fingers can cause physical, psychosocial, and economic damage to an individual. Replacement of a finger requires a mechanical design that can withstand the forces, torques, and environmental conditions of everyday life.

National Institute of Health (NIH)
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Small Business Technology Transfer (STTR) Grants - Phase II (R42)
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Special Emphasis Panel (ZRG1)
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Quatrano, Louis A
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Point Designs, LLC
United States
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