There is a strong demand for nanoindentation methods to probe the heterogeneous viscoelastic properties of soft tissues. Important applications include diagnosis of early onset diseases such as arthritis and investigations into cellular mechanoresponse in tissue. Quantification of tissue mechanics at length and time scales relevant to biological processes, however, remains a technical challenge. Here, we present a new nanoindentation approach that is ideally suited to probe the viscoelastic properties of soft, hydrated tissues. We built a ferrule-top probe that uses wavelength modulation in a Fabry-Pérot cavity configuration to detect cantilever deflection and to drive a feedback-controlled piezoelectric actuator. This technique allows us t...
Technologies for soft tissue analysis are advancing at a rapid place. For instance, elastography, wh...
Understanding the mechanical properties of biological tissues can shed light on how those tissues wo...
Nanoindentation refers to a class of experimental techniques where a micrometric force probe is used...
There is a strong demand for nanoindentation methods to probe the heterogeneous viscoelastic propert...
The biomechanical properties of soft tissues play an important role in their normal physiological an...
The micromechanical properties of soft tissues and materials are of considerable interest for biomed...
The micromechanical properties of soft tissues and materials are of considerable interest for biomed...
The responses of soft structures such as tissue depend on their viscoelastic properties. Therefore, ...
Indentation is becoming increasingly popular to test soft tissues and (bio)materials. Each material ...
From cancer diagnosis to detailed characterization of arterial wall biomechanics, the elastic proper...
As many studies show, there is a relation between the tissue’s mechanical characteristics and some s...
We present a new method for performing dynamic elastography of soft tissue samples. By sensing nanos...
Measuring the mechanical properties of soft tissues in vivo is important in biomechanics and for dia...
The quantification of mechanical properties of soft tissues has been of great interest for more than...
Nano-indentation is widely used for probing the micromechanical properties of materials. Based on th...
Technologies for soft tissue analysis are advancing at a rapid place. For instance, elastography, wh...
Understanding the mechanical properties of biological tissues can shed light on how those tissues wo...
Nanoindentation refers to a class of experimental techniques where a micrometric force probe is used...
There is a strong demand for nanoindentation methods to probe the heterogeneous viscoelastic propert...
The biomechanical properties of soft tissues play an important role in their normal physiological an...
The micromechanical properties of soft tissues and materials are of considerable interest for biomed...
The micromechanical properties of soft tissues and materials are of considerable interest for biomed...
The responses of soft structures such as tissue depend on their viscoelastic properties. Therefore, ...
Indentation is becoming increasingly popular to test soft tissues and (bio)materials. Each material ...
From cancer diagnosis to detailed characterization of arterial wall biomechanics, the elastic proper...
As many studies show, there is a relation between the tissue’s mechanical characteristics and some s...
We present a new method for performing dynamic elastography of soft tissue samples. By sensing nanos...
Measuring the mechanical properties of soft tissues in vivo is important in biomechanics and for dia...
The quantification of mechanical properties of soft tissues has been of great interest for more than...
Nano-indentation is widely used for probing the micromechanical properties of materials. Based on th...
Technologies for soft tissue analysis are advancing at a rapid place. For instance, elastography, wh...
Understanding the mechanical properties of biological tissues can shed light on how those tissues wo...
Nanoindentation refers to a class of experimental techniques where a micrometric force probe is used...