Optical microscopy is one of the most ubiquitous tools for functional imaging of biological phenomena. While relatively non-destructive to living organisms, light microscopy’s spatial resolution is diffraction limited, restricting the minimum resolvable features. On the other hand, high resolution techniques such as electron microscopy or STORM, have several orders of...
Shoulder (glenohumeral joint) osteoarthritis causes pain, limits daily activities, and frequently requires joint replacement surgery. In shoulder osteoarthritis, the glenoid bone surface erodes in one of two ways: symmetrically (concentric deformity) or asymmetrically (eccentric deformity). Shoulder replacements in patients with eccentric deformities fail and require additional, revision surgery more often...
Cancer progression is a complex process, leading to metastatic spread of primary tumor cells that colonize distant vital organs and mortality if not stopped. Since clinical strategies to stem this progression are still being developed, it is of great importance to detect this end stage metastatic spread as early as...
Single-molecule localization microscopy (SMLM) has significantly stimulated the development of methods to quantitatively visualize and characterize biomolecules in vitro and in situ. SMLM is a class of super-resolution microscopy (SRM) techniques, which exploits the “on-off” switching of individual fluorescent molecules to estimate their location with nanometer precision and offers spatial...
End-stage renal disease, or kidney failure, can result from acute kidney injury or sustained kidney damage in the form of chronic kidney disease. As the prevalence of end-stage renal disease continues to rise, the gold-standard treatment—kidney transplantation—is increasingly restricted by the shortage of transplantable donor kidneys. Bioengineered kidney tissues may...
Microfluidic technologies enable multi-tissue culture and precise control of media exchange and therefore have significant potential to create more complex in vitro models of reproductive systems, including endocrine cycles. However, microfluidic technologies have largely been applied to gamete-level culture in reproductive biology, with very little progress in organ-level culture. Herein...
In environments ranging from natural ecosystems to living organisms, small molecule signals and nanoscale forces communicate important information regarding chemical contamination and pollution, pathogenesis, and physical stressors. As these stimuli are often well below detection limits for our own senses, we depend on biosensing technologies to monitorthem. Many biosensors operate...
Nanocarriers are nanometer-sized (1-1000 nm) structures capable of encapsulating cargo. This encapsulation can drastically alter the pharmacokinetic properties of the cargo, while also allowing for the rational design and engineering of the nanocarrier itself. Poly(ethylene glycol)-block-poly(propylene sulfide) is an amphiphilic diblock copolymer capable of self-assembling into diverse nanocarriers. The purpose...
Nanomaterials are broadly defined as materials that exhibit at least one dimension that is less than 1,000 nm. Encompassed within nanomaterials are a class of constructs known as nanocarriers, which are applied as delivery vehicles for both encapsulated and covalently bound payloads. Poly(ethylene glycol)-block-poly(propylene sulfide) (PEG-b-PPS) is an amphiphilic block...
The shoulder is the most mobile joint in the human body, allowing for the execution of complex and athletic tasks. Unfortunately, such expansive mobility comes at a cost. The shoulder is prone to instability, or painful symptoms associated with increased humeral head translation, and dislocation. To prevent dislocations and maintain...