Add to ORKGtextAdvances in medical treatment are leading away from generalized care towards intelligent systems or devices which can sense and respond to their environment. With these devices, the burden of monitoring and dosing for treatment can be removed from the doctor (or the patient) and be placed on the device itself. Implicit closed-loop control systems will allow the device to respond to its environment and release therapeutic agent in response to a specific stimulus. Environmentally responsive hydrogels show great promise in being incorporated in such an intelligent device, such as pH-responsive hydrogels which can swell and deswell in response to changes in the pH of the media. Thus, pH changes can be exploited for controlled and intelligen...
The recovery of diminished or lost regulatory functions of physiological systems drives important re...
A polymer is a molecule with high molecular weight constituted by identical or different repeating u...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, February,...
textAdvances in medical treatment are leading away from generalized care towards intelligent systems...
Two supramolecular hydrogelators containing a central disulfide moiety and terminal carboxylic acid g...
Stimulus-responsive polymer microgels swell and shrink reversibly upon exposure to various environme...
The prominence of hydrogels in various fields of life sciences is due to their significant and funct...
Intelligent and more advanced therapeutic agents, capable of sensing and responding to their environ...
textThe emerging class of biologic drugs, including proteins, peptides, and gene therapies, are wide...
Three kinds of vinyl hydrogels with a-aminoacid residues have been considered as potential platforms...
Hydrogels are water-swollen 3D networks made of polymers, proteins, small molecules, or colloids. Th...
Degradable polymeric materials such as hydrogels are extensively utilized as delivery vehicles due t...
A staggering number of medical devices, including healthcare products for diagnosis and therapy, hav...
Therapeutic proteins and peptides represent a major area of research in current pharmaceutical and b...
Insulin is a peptide hormone that is key to regulating physiological glucose levels. Its molecular s...
The recovery of diminished or lost regulatory functions of physiological systems drives important re...
A polymer is a molecule with high molecular weight constituted by identical or different repeating u...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, February,...
textAdvances in medical treatment are leading away from generalized care towards intelligent systems...
Two supramolecular hydrogelators containing a central disulfide moiety and terminal carboxylic acid g...
Stimulus-responsive polymer microgels swell and shrink reversibly upon exposure to various environme...
The prominence of hydrogels in various fields of life sciences is due to their significant and funct...
Intelligent and more advanced therapeutic agents, capable of sensing and responding to their environ...
textThe emerging class of biologic drugs, including proteins, peptides, and gene therapies, are wide...
Three kinds of vinyl hydrogels with a-aminoacid residues have been considered as potential platforms...
Hydrogels are water-swollen 3D networks made of polymers, proteins, small molecules, or colloids. Th...
Degradable polymeric materials such as hydrogels are extensively utilized as delivery vehicles due t...
A staggering number of medical devices, including healthcare products for diagnosis and therapy, hav...
Therapeutic proteins and peptides represent a major area of research in current pharmaceutical and b...
Insulin is a peptide hormone that is key to regulating physiological glucose levels. Its molecular s...
The recovery of diminished or lost regulatory functions of physiological systems drives important re...
A polymer is a molecule with high molecular weight constituted by identical or different repeating u...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, February,...