Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, including ankylosing spondylitis, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: An apparatus and method for transdermally delivering an immunologically active agent comprising a delivery system having a microprojection array that includes a plurality of microprojections that are adapted to pierce through the stratum corneum into the underlying epidermis layer, or epidermis and dermis layers, the microprojection array having a plurality of array regions, each of the array regions having a different biocompatible coating disposed thereon, wherein at least one of the array region coatings includes an immunologically active agent. In one embodiment, each coating on the array regions includes a different immunologically active agent. In another embodiment, the biocompatible coating on a first array region includes an immunologically active agent and the biocompatible coating on a second array region includes an immune response augmenting adjuvant.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: An apparatus and method for transdermally delivering a biologically active agent comprising a delivery system having a microprojection member (or system) that includes a plurality of microprojections (or array thereof) that are adapted to pierce through the stratum corneum into the underlying epidermis layer, or epidermis and dermis layers. In one embodiment, the PTH-based agent is contained in a biocompatible coating that is applied to the microprojection member.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, including ankylosing spondylitis, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: A method and device are described for applying a microprotrusion member (44) including a plurality of microprotrusions (90) to the stratum corneum with impact. The method and device are used to improve transport of an agent across the skin for agent delivery or sampling. The applicator (10, 60, 80) causes the microprotrusion member (44) to impact the stratum corneum with a certain amount of impact determined to effectively pierce the skin with the microprotrusions (90). The preferred applicator (10, 60, 80) impacts the stratum corneum with the microprotrusion member (44) with an impact of at least 0.05 joules per cm2 of the microprotrusion member (44) in 10 msec or less.

Abstract: An apparatus and method for transdermally delivering a biologically active agent comprising a delivery system having a microprojection member (or system) that includes a plurality of microprojections (or array thereof) that are adapted to pierce through the stratum corneum into the underlying epidermis layer, or epidermis and dermis layers. In one embodiment, the fentanyl-based agent is contained in a biocompatible coating that is applied to the microprojection member. In a further embodiment, the delivery system includes a gel pack having a fentanyl-based agent-containing hydrogel formulation that is disposed on the microprojection member after application to the skin of a patient. In an alternative embodiment, the fentanyl-based agent is contained in both the coating and the hydrogel formulation.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: A substantially conical shaped microprojection having a wall defining an interior region, said microprojection wall including a plurality of openings; and a biocompatible coating disposed on the interior region of the microprojection. In a preferred embodiment, the microprojection is formed by deforming a region of a substantially planar sheet.

Abstract: The present invention relates to a device and method for implanting hair follicle-inducing cells within the scalp. The hair follicle cells are generated by the use of tissue culture process from autologous donor cells. The cells are placed upon a microprojection array for implantation within the scalp utilizing predetermined parameters of angle, density and depth.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-? (TNF?) and are useful in vivo diagnosis and therapy of a number of TNF?-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.

Abstract: A porous microprojection member for insertion into biological tissue surrounded by interstitial fluid having a wall that includes interior and exterior surfaces, the exterior surface substantially enclosing the interior surface; and a biocompatible coating disposed on the interior surface, the microprojection member being adapted to substantially restrict contact of the coating with the tissue during insertion of the microprojection member into the tissue, the microprojection member having sufficient porosity to allow migration of the interstitial fluid through the wall of the microprojection member.

Abstract: Microprojection members (10) having a reservoir containing an antigenic agent and methods of using such members to vaccinate mammals (e.g., humans) are disclosed. The microprojection members are used to transdermally deliver an antigenic agent (e.g., a vaccine antigen) with substantially reduced skin reactions. This is achieved by delivering an induction amount and thereafter delivering one or more subsequent booster amounts. The induction amount is relatively larger than the booster amount. This technology has broad applicability for a wide variety of therapeutic vaccines to improve efficacy and convenience of use.

Abstract: Anti-TNF antibodies, fragments and regions thereof which are specific for human tumor necrosis factor-&agr; (TNF&agr;) and are useful in vivo diagnosis and therapy of a number of TNF&agr;-mediated pathologies and conditions, as well as polynucleotides coding for murine and chimeric antibodies, methods of producing the antibody, methods of use of the anti-TNF antibody, or fragment, region or derivative thereof, in immunoassays and immunotherapeutic approaches are provided.