Abstract Replacement orthopedic surgeries are among the most common surgeries worldwide, but clinically used passive implants cannot prevent failure rates and inherent revision arthroplasties. Optimized non-instrumented implants, resorting to preclinically tested bioactive coatings, improve initial osseointegration but lack long-term personalized actuation on the bone–implant interface. Novel bioelectronic devices comprising biophysical stimulators and sensing systems are thus emerging, aiming for long-term control of peri-implant bone growth through biointerface monitoring. These acting-sensing dual systems require high frequency (HF) operations able to stimulate osteoinduction/osteoconduction, including matrix maturation and mineralizat...
Existing methods for testing prosthetic implants suffer from critical limitations, creating an urgen...
A titanium implant surface when coated with biodegradable, highly porous, osteogenic nanofibrous coa...
Mesenchymal stem cells (MSCs) have a great potential in the field of tissue engineering and regenera...
The world population growth and average life expectancy rise have increased the number of people suf...
Human Mesenchymal Stem cells (hMSCs) have the unique potential to differentiate into multiple cell t...
The influences of physical stimuli such as surface elasticity, topography, and chemistry over mesenc...
Since the discovery of piezoelectric properties of natural bone, electrical stimulation has been wi...
The influences of physical stimuli such as surface elasticity, topography, and chemistry over mesenc...
Abstract Electrical stimulation has been suggested as a means for promoting the direct structural an...
Arthroplasty is liable to cause intense changes on strain levels and distribution in the boné surrou...
Electric stimulation is known to initiate signaling pathways and provides a technique to enhance ost...
This paper presents an electronic device for enhancing osseointegration of surrounding tissues in ...
The use of biomaterials to direct osteogenic differentiation of human mesenchymal stem cells (hMSCs)...
This in vivo study presents the preliminary results of the use of a novel piezoelectric actuator for...
Electrical stimulation (ES) is a novel approach to osteogenic differentiation of mesenchymal stem ce...
Existing methods for testing prosthetic implants suffer from critical limitations, creating an urgen...
A titanium implant surface when coated with biodegradable, highly porous, osteogenic nanofibrous coa...
Mesenchymal stem cells (MSCs) have a great potential in the field of tissue engineering and regenera...
The world population growth and average life expectancy rise have increased the number of people suf...
Human Mesenchymal Stem cells (hMSCs) have the unique potential to differentiate into multiple cell t...
The influences of physical stimuli such as surface elasticity, topography, and chemistry over mesenc...
Since the discovery of piezoelectric properties of natural bone, electrical stimulation has been wi...
The influences of physical stimuli such as surface elasticity, topography, and chemistry over mesenc...
Abstract Electrical stimulation has been suggested as a means for promoting the direct structural an...
Arthroplasty is liable to cause intense changes on strain levels and distribution in the boné surrou...
Electric stimulation is known to initiate signaling pathways and provides a technique to enhance ost...
This paper presents an electronic device for enhancing osseointegration of surrounding tissues in ...
The use of biomaterials to direct osteogenic differentiation of human mesenchymal stem cells (hMSCs)...
This in vivo study presents the preliminary results of the use of a novel piezoelectric actuator for...
Electrical stimulation (ES) is a novel approach to osteogenic differentiation of mesenchymal stem ce...
Existing methods for testing prosthetic implants suffer from critical limitations, creating an urgen...
A titanium implant surface when coated with biodegradable, highly porous, osteogenic nanofibrous coa...
Mesenchymal stem cells (MSCs) have a great potential in the field of tissue engineering and regenera...