The present invention generally relates to radio-enabled devices for detection and remedy of biological and chemical warfare attack. More particularly, this invention relates to an on-body apparatus that provides a means of treatment which is innocuous to the wearer, but capable of injecting antidotes within seconds and preferably also combines multiple means of sensing chemical and biological agents as well as monitoring users physiological response to the antidotes thereby to enable tailored and continuous infusion of antidotes while minimizing the side effect of the antidotes themselves. A key embodiment of this invention is the incorporation of an electronically-controlled needle or cannula that will deploy only when commanded to. When not deployed, the device sits inertly against the patients skin, affixed by adhesive and or elastic materials.
