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Hollow Metallic Micromachined Needle Arrays (2000)

Brazzle, John D. ; Papautsky, Ian ; Bruno Frazier, A.

Springer

Biomedical microdevices 2 (2000), S. 197-205

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ISSN: 1572-8781

Keywords: microneedles ; microfluidics ; micromachining ; micro-electrodeposition ; drug delivery

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract In this paper, fluid coupled metallic micromachined needle arrays are designed, fabricated, packaged, and characterized. The described hollow metallic needle arrays include design features such as dual structural supports and needle coupling channels. The supports and needle walls are formed by micro-electroformed metal to provide increased structural integrity. The needle coupling channels are used to fluidically interconnect the needles and allow pressure equalization and balance of fluid flow between needles. In addition, the needle coupling channels minimize the effects of restricted needle passages by providing a redistribution point for fluid flow between them. The optimum design for the needle coupling channels is investigated using an ANSYS finite element numerical model. The significance of this work includes the development of hollow, metallic micromachined needle arrays for biomedical applications, as well as, a discussion of structural, fluidic, and biological design considerations

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009980412628

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Microfabricated Polysilicon Microneedles for Minimally Invasive Biomedical Devices (2000)

Zahn, Jeffrey D. ; Talbot, Neil H. ; Liepmann, Dorian ; [et al.]

Springer

Biomedical microdevices 2 (2000), S. 295-303

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ISSN: 1572-8781

Keywords: microneedle ; microfluidie ; polysilicon ; cromolding ; drug delivery

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract A two-wafer polysilicon micromolding process has been developed for the fabrication of hollow tubes useful for microfluidic applications. These small tubes can be fabricated with a pointed end, resulting in a micro hypodermic injection needle. Microneedles are desired because they reduce both insertion pain and tissue damage in the patient. Such microneedles may be used for low flow rate, continuous drug delivery, such as the continuous delivery of insulin to a diabetic patient. The needles would be integrated into a short term drug delivery device capable of delivering therapeutics intradermally for about 24 hours. In addition, microneedles can be used for sample collection for biological analysis, delivery of cell or cellular extract based vaccines, and sample handling providing interconnection between the microscopic and macroscopic world. The strength of microneedles was examined analytically, experimentally and by finite element analysis. Metal coatings provide significant increases in the achievable bending moments before failure in the needles. For example, a 10 μ m platinum coating increased the median bending moment of a 160 μ m wide, 110 μ m high microneedle with a 20 μ m wall from 0.25 to 0.43 mNm. In addition, fluid flow in microneedles was studied experimentally. Microneedles 192 μ m wide, 110 μ m high and 7 mm long have flow rates of 0.7 ml/sec under a 138 kPa inlet pressure. This flow capacity exceeds previous microneedle capacities by an order of magnitude.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009907306184

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Optimization of Preparation Techniques for Poly(Lactic Acid-Co-Glycolic Acid) Nanoparticles (2000)

Birnbaum, Duane T. ; Kosmala, Jacqueline D. ; Brannon-Peppas, Lisa

Springer

Journal of nanoparticle research 2 (2000), S. 173-181

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ISSN: 1572-896X

Keywords: biodegradable ; poly(lactic acid-co-glycolic acid) ; drug delivery ; particle size ; aggregation

Source: Springer Online Journal Archives 1860-2000

Topics: Physics , Technology

Notes: Abstract Microparticles and nanoparticles of poly(lactic acid-co-glycolic acid) (PLAGA) are excellent candidates for the controlled release of many pharmaceutical compounds because of their biodegradable nature. The preparation of submicron PLAGA particles poses serious challenges that are not necessarily present when preparing microparticles. We have evaluated several combinations of organic solvents and surfactants used in the formulation of PLAGA nanoparticles. Critical factors such as the ability to separate the nanoparticles from the surfactant, the ability to re-suspend the nanoparticles after freeze-drying, formulation yield and nanoparticle size were studied. The smallest particles were obtained using the surfactant/solvent combination of sodium dodecyl sulfate and ethyl acetate (65 nm) and the largest particles were obtained using poly(vinyl alcohol) and dichloromethane (466 nm). However, the optimal nanoparticles were produced using either acetone or ethyl acetate as the organic solvent and poly(vinyl alcohol) or human serum albumin as the surfactant. This is because the most critical measure of performance of these nanoparticles proved to be their ability to re-suspend after freeze-drying.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1010038908767

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