Healthy and diabetic primary human osteoblasts exhibit varying phenotypic profiles in high and low glucose environments on 3D-printed titanium surfaces
Nicholas Allen, Alexandra Hunter Aitchison, Bijan Abar, Julian Burbano, Mark Montgomery, Lindsey Droz, Richard Danilkowicz, Samuel Adams

TL;DR
Diabetic osteoblasts respond poorly to glucose changes on 3D-printed titanium surfaces, suggesting challenges for orthopedic implants in diabetes patients.
Contribution
Demonstrates impaired glucose responsiveness in diabetic osteoblasts on 3D-printed titanium surfaces, highlighting implications for implant success in diabetes.
Findings
Diabetic osteoblasts showed no change in function across glucose levels, unlike healthy cells.
Healthy osteoblasts increased osteogenic gene expression in high glucose environments.
3D-printed titanium surfaces may not overcome diabetes-related osseointegration challenges.
Abstract
The revolution of orthopedic implant manufacturing is being driven by 3D printing of titanium implants for large bony defects such as those caused by diabetic Charcot arthropathy. Unlike traditional subtractive manufacturing of orthopedic implants, 3D printing fuses titanium powder layer-by-layer, creating a unique surface roughness that could potentially enhance osseointegration. However, the metabolic impairments caused by diabetes, including negative alterations of bone metabolism, can lead to nonunion and decreased osseointegration with traditionally manufactured orthopedic implants. This study aimed to characterize the response of both healthy and diabetic primary human osteoblasts cultured on a medical-grade 3D-printed titanium surface under high and low glucose conditions. Bone samples were obtained from six patients, three with Type 2 Diabetes Mellitus and three without.…
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Taxonomy
TopicsOrthopaedic implants and arthroplasty · Mesenchymal stem cell research · Bone Metabolism and Diseases
