Controlled inhaler for distributing inhalant according to inhalation velocity

What is claimed is: 1. An inhaler for delivering an inhalant comprising a therapeutic agent to a patient, the inhaler comprising: an inlet through which the patient inhales; a microcontroller; and one or more sensors for detecting information about an inhalation velocity of the patient; wherein the microcontroller is configured to controllably dispense the inhalant from the inhaler during an inhalation of the patient based on the information about the inhalation velocity of the patient, the information including at least information about an inhalation velocity from a previous instance of the patient taking sample inhalations from the inhaler, so as to increase the delivery of therapeutic agent to the patient during the inhalation. 2. The inhaler of claim 1 , further comprising an atomizer for atomizing a non-aerosoled form of the inhalant and dispensing the inhalant as an aerosol. 3. The inhaler of claim 2 , further comprising a reservoir coupled to the atomizer, the reservoir configured to hold the non-aerosoled form of the inhalant. 4. The inhaler of claim 2 , further comprising a driver for driving a non-aerosoled form of the inhalant through the atomizer. 5. The inhaler of claim 3 , wherein the driver comprises a pump or a source of compressed gas. 6. The inhaler of claim 3 , wherein the driver is controlled by information about the patient's inhalation velocity. 7. The inhaler of claim 5 , wherein the driver generates driving pressure responsive to information about the patient's inhalation velocity. 8. The inhaler of claim 6 , wherein the driver generates higher driving pressure during slower velocity portions of a patient's inhalation. 9. The inhaler of claim 1 , wherein the microcontroller substantially synchronizes the dispensing of the inhalant with a period of maximum inhalation velocity. 10. The inhaler of claim 1 , wherein the information comprises a period of maximum inhalation velocity or a maximum acceleration in inhalation velocity during a period of patient inhalation. 11. The inhaler of claim 1 , wherein the microcontroller controllably dispenses the inhalant during a period of patient inhalation so as to reach a deep lung volume of the patient. 12. The inhaler of claim 1 , wherein the microcontroller controllably dispenses the inhalant during a period of patient inhalation so as to increase an amount of absorption of the inhalant in the blood stream resulting from the inhalation. 13. The inhaler of claim 1 , wherein the microcontroller controllably dispenses the inhalant during a period of patient inhalation so as to absorb a therapeutically effective amount of the inhalant in the patient's body resulting from the inhalation. 14. The inhaler of claim 1 , wherein the sensors are positioned within or adjacent the inlet. 15. The inhaler of claim 1 , further comprising a control mechanism to controllably open and close the inlet in response to a signal from the microcontroller. 16. The inhaler of claim 14 , wherein the inlet is opened and closed responsive to the information about the inhalation velocity. 17. The inhaler of claim 1 , wherein the microcontroller: i) generates a velocity profile from the information about the inhalation velocity, and ii) uses the velocity profile to controllably dispense the inhalant from the inhaler. 18. The inhaler of claim 17 , wherein the controller compares the generated velocity profile to information about inhalation velocity from a previous instance of the patient taking sample inhalations from the inhaler. 19. The inhaler of claim 1 , wherein the sensors comprise an optical, acoustical or anemometry-based velocity sensor.