Sweat rate measurement devices

What is claimed is: 1. A sweat sensing device capable of directly measuring sweat flow rate comprising: at least one flow rate sensor for measuring a sweat flow rate; at least one analyte sensor for measuring a characteristic of an analyte in sweat; and a microfluidic component comprising a fluid pathway for conveying at least one sweat sample into fluid communication with the at least one flow rate sensor, the at least one analyte sensor, or both the at least one flow rate sensor and the at least one analyte sensor, wherein the pathway has a first portion for collecting a sample and a second portion adjacent to the at least one flow rate sensor and the at least one analyte sensor, wherein the second portion has a volume-reduced pathway relative to the first portion; wherein the microfluidic component further comprises a main fluid pathway containing the at least one analyte sensor and a flow sensor pathway containing the at least one flow rate sensor, the flow sensor pathway comprising a volume-reduced pathway relative to the main fluid pathway. 2. The device of claim 1 , wherein the flow sensor pathway has a width substantially equal to the width of the at least one flow rate sensor. 3. A sweat sensing device capable of directly measuring sweat flow rate comprising: at least one flow rate sensor for measuring a sweat flow rate; at least one analyte sensor for measuring a characteristic of an analyte in sweat; and a microfluidic component comprising a fluid pathway for conveying at least one sweat sample into fluid communication with the at least one flow rate sensor, the at least one analyte sensor, or both the at least one flow rate sensor and the at least one analyte sensor, wherein the pathway has a first portion for collecting a sample and a second portion adjacent to the at least one flow rate sensor and the at least one analyte sensor, wherein the second portion has a volume-reduced pathway relative to the first portion; wherein the microfluidic component further comprises a network of closed channels in the fluid pathway, each of the closed channels in the network comprising a volume-reduced pathway and a flow rate sensor. 4. A method of determining sweat rate in a sweat sensing device, the method comprising the steps of: collecting at least one sweat sample from a portion of skin; drawing the sweat sample through a microfluidic component; measuring a flow rate of the sweat sample using at least one thermal flow rate sensor adjacent to the microfluidic component; measuring system noise unrelated to movement of sweat using at least one reference flow sensor; and processing the flow rate measurement and the system noise measurement to determine a sweat flow rate in the device. 5. The method of claim 4 , further comprising the step of maintaining a unidirectional flow of sweat through the microfluidic component. 6. The method of claim 4 , wherein the microfluidic component is a closed channel. 7. The method of claim 4 , wherein the sweat sample is conveyed into contact with the at least one thermal flow rate sensor using a wicking component. 8. The method of claim 7 , wherein during flow rate sensing, a percent wetting of the wicking component is configured to change by no more than 30%. 9. The method of claim 4 , further comprising the step of dampening flow dynamics in the closed channel to reduce noise. 10. The method of claim 4 , wherein processing the flow rate measurement and the reference flow rate measurement further includes analyzing changes in flow rate to detect flow reversal. 11. The method of claim 10 , wherein the analyzing changes in flow rate includes comparing the measured flow rate with a threshold and if the flow rate is greater than the threshold, indicating that flow rate has reversed.