Elman et al., 2010 - Google Patents
Electro-thermally induced structural failure actuator (ETISFA) for implantable controlled drug delivery devices based on Micro-Electro-Mechanical-SystemsElman et al., 2010
View PDF- Document ID
- 6550842717668241041
- Author
- Elman N
- Masi B
- Cima M
- Langer R
- Publication year
- Publication venue
- Lab on a Chip
External Links
Snippet
A new electro-thermally induced structural failure actuator (ETISFA) is introduced as an activation mechanism for on demand controlled drug delivery from a Micro-Electro- Mechanical-System (MEMS). The device architecture is based on a reservoir that is sealed …
- 239000000599 controlled substance 0 title abstract description 4
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Van Meerbeek et al. | Morphing metal and elastomer bicontinuous foams for reversible stiffness, shape memory, and self‐healing soft machines | |
| EP3030286B1 (en) | Conformable patch pump | |
| Elman et al. | Electro-thermally induced structural failure actuator (ETISFA) for implantable controlled drug delivery devices based on Micro-Electro-Mechanical-Systems | |
| US20100298808A1 (en) | Method and a delivery device for administering an active substance to a subject | |
| JP6888230B2 (en) | Biomedical equipment | |
| US20090275925A1 (en) | Device for the controlled release of a substance | |
| US11000474B2 (en) | Microchip substance delivery devices | |
| Spieth et al. | The NeuroMedicator—a micropump integrated with silicon microprobes for drug delivery in neural research | |
| WO2004010971A1 (en) | Implantable mems medicine delivery system | |
| CA2420682A1 (en) | Micro-fluidic system | |
| US20090099553A1 (en) | Device for the controlled release of a substance and method of releasing a substance | |
| WO2004011368A2 (en) | Low temperature anodic bonding method using focused energy for assembly of micromachined systems | |
| Li et al. | A parylene MEMS electrothermal valve | |
| Augustine et al. | Low-power electrically controlled thermoelastic microvalves integrated in thermoplastic microfluidic devices | |
| Moss et al. | A fabrication technology for multi-layer polymer-based microsystems with integrated fluidic and electrical functionality | |
| Li et al. | A low power, on demand electrothermal valve for wireless drug delivery applications | |
| Cardenas-Valencia et al. | Development of various designs of low-power, MEMS valves for fluidic applications | |
| Pennarun et al. | Single use, robust, MEMS based electro-thermal microswitches for redundancy and system reconfiguration | |
| CN117855146A (en) | Chemical corrosion transient devices and self-destructive chips based on thermal triggering and microfluidics | |
| Roxhed et al. | Low cost device for precise microliter range liquid dispensing | |
| Lamers et al. | Electrically addressable, liquid release well array for a hand-held, scent-dispense system | |
| Yang | MEMS-enabled drug delivery through wirelessly controlled pumping and valving actuation | |
| Deshpande et al. | An improved analytical model for deflections of a circular multi-layer piezoelectric actuator | |
| EP1918586B1 (en) | Multicellular pump and fluid delivery device | |
| Li | Implantable bioMEMS drug delivery systems |