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Assessing engineered tissues and biomaterials using ultrasound imaging: In vitro and in vivo applications
Quantitative assessment of the structural, functional, and mechanical properties of
engineered tissues and biomaterials is fundamental to their development for regenerative …
engineered tissues and biomaterials is fundamental to their development for regenerative …
Photoacoustic imaging in tissue engineering and regenerative medicine
Several imaging modalities are available for investigation of the morphological, functional,
and molecular features of engineered tissues in small animal models. While research in …
and molecular features of engineered tissues in small animal models. While research in …
Non-invasive and non-destructive characterization of tissue engineered constructs using ultrasound imaging technologies: a review
With the rapid expansion of biomaterial development and coupled efforts to translate such
advances toward the clinic, non-invasive and non-destructive imaging tools to evaluate …
advances toward the clinic, non-invasive and non-destructive imaging tools to evaluate …
High resolution ultrasound imaging for repeated measure of wound tissue morphometry, biomechanics and hemodynamics under fetal, adult and diabetic conditions
Non-invasive, repeated interrogation of the same wound is necessary to understand the
tissue repair continuum. In this work, we sought to test the significance of non-invasive high …
tissue repair continuum. In this work, we sought to test the significance of non-invasive high …
High-frequency quantitative ultrasound for the assessment of the acoustic properties of engineered tissues in vitro
Acoustic properties of biomaterials and engineered tissues reflect their structure and
cellularity. High-frequency ultrasound (US) can non-invasively characterize and monitor …
cellularity. High-frequency ultrasound (US) can non-invasively characterize and monitor …
Quantitative ultrasound imaging of cell-laden hydrogels and printed constructs
In the present work we have revisited the application of quantitative ultrasound imaging
(QUI) to cellular hydrogels, by using the reference phantom method (RPM) in combination …
(QUI) to cellular hydrogels, by using the reference phantom method (RPM) in combination …
Ultrasound patterning technologies for studying vascular morphogenesis in 3D
Investigations in this report demonstrate the versatility of ultrasound-based patterning and
imaging technologies for studying determinants of vascular morphogenesis in 3D …
imaging technologies for studying determinants of vascular morphogenesis in 3D …
Ultrasound imaging techniques for spatiotemporal characterization of composition, microstructure, and mechanical properties in tissue engineering
Ultrasound techniques are increasingly being used to quantitatively characterize both native
and engineered tissues. This review provides an overview and selected examples of the …
and engineered tissues. This review provides an overview and selected examples of the …
Noninvasive quantitative imaging of collagen microstructure in three-dimensional hydrogels using high-frequency ultrasound
Collagen I is widely used as a natural component of biomaterials for both tissue engineering
and regenerative medicine applications. The physical and biological properties of fibrillar …
and regenerative medicine applications. The physical and biological properties of fibrillar …
Noninvasive ultrasound imaging for assessment of intact microstructure of extracellular matrix in tissue engineering
Abstract Development of artificial tissues or organs is one of the actual tasks in regenerative
medicine that requires observation and evaluation of intact volume microstructure of tissue …
medicine that requires observation and evaluation of intact volume microstructure of tissue …