Extravasation and infiltration detection device with fluid guide provided on a substrate of the detection device to adjust fluid rate based on detection signal

What is claimed is: 1. An integrated device configured to detect extravasation, the integrated device comprising: a flexible substrate comprising (i) a first layer configured to contact an outer surface of a body portion, and (ii) a second layer coupled to the first layer and configured to releasably mount, at a first side and via an adhesive border, the flexible substrate to the outer surface of the body portion, wherein the flexible substrate is configured to support: a transmitter configured to direct power into the body portion; a sensor configured to receive the power transmitted through the body portion; a signal processor and a power supply coupled to the transmitter and the sensor; and an indicator responsive to the signal processor; and a fluid guiding component positioned on the flexible substrate, wherein the signal processor is configured to: define, prior to insertion of fluid into a vascular structure of the body portion, a first signal indicating a baseline condition of a fluid level in the body portion, the first signal defining an extravasation or infiltration threshold; define, at a subsequent time during insertion of the fluid into the vascular structure, a second signal; compare the second signal to the first signal by: generating a first ratio of the first signal to a reference signal; generating a second ratio of the second signal to the reference signal; and comparing the first and second ratios; and when the second signal is less than or equal to the first signal and the second ratio is a predefined percentage of the first ratio, reduce an amount of the fluid being inserted into the vascular structure, and wherein the indicator is configured to indicate the change in the baseline condition of the fluid level in the body portion from extravasation or infiltration. 2. A method for detecting extravasation or infiltration, comprising: mounting an integrated device to an outer surface of a body portion, the integrated device configured to detect extravasation or infiltration, the integrated device comprising: a flexible substrate comprising (i) a first layer configured to contact an outer surface of the body portion, and (ii) a second layer coupled to the first layer and configured to releasably mount, at a first side and via an adhesive border, the flexible substrate to the outer surface of the body portion, wherein the flexible substrate is configured to support integrated circuitry comprising a transmitter, a sensor, a signal processor, a power supply, and an indicator; inserting a fluid injection conduit into a vascular structure in the body portion; activating the integrated circuitry to obtain a baseline measurement for a power waveform transmitted into the body portion, the baseline measurement defining a first signal indicating a baseline condition of a fluid level in the body portion; injecting fluid into the vascular structure via the fluid injection conduit at a fluid injection rate; activating the integrated circuitry to obtain a subsequent measurement for the power waveform transmitted into the body portion, the subsequent measurement defining a second signal; detecting, by the integrated circuitry, a change in the baseline condition based on a comparison of the second signal to the first signal, wherein the comparison comprises: generating a first ratio of the first signal to a reference signal; generating a second ratio of the second signal to the reference signal; and comparing the first and second ratios; and when the second signal is less than or equal to the first signal and the second ratio is a predefined percentage of the first ratio, reducing the fluid injection rate; and indicating, by the indicator, the change in the baseline condition of the fluid level in the body portion from extravasation or infiltration. 3. An integrated device configured to detect extravasation or infiltration, the integrated device comprising: a flexible substrate comprising (i) a first layer configured to contact an outer surface of a body portion, and (ii) a second layer coupled to the first layer and configured to releasably mount, at a first side and via an adhesive border, the flexible substrate to the outer surface of the body portion, wherein the flexible substrate is configured to support: a transmitter configured to direct power into the body portion; a sensor configured to receive the power transmitted through the body portion; at least one of a signal processor or a power supply coupled to the transmitter and the sensor; and an indicator responsive to the signal processor, and a fluid guiding component positioned on the flexible substrate; wherein the signal processor is configured to: define, prior to insertion of fluid into the body portion, a first signal indicating a baseline condition of a fluid level in the body portion, the first signal defining an extravasation or infiltration threshold; define, at a subsequent time during insertion of the fluid into the body portion, a second signal; compare the second signal to the first signal; and when the second signal is less than or equal to the first signal, reduce an amount of the fluid being inserted into the body portion, and wherein the indicator comprises a user interface configured to provide a notification that the second signal is less than or equal to the first signal, and wherein the signal processor is further configured to determine a duty cycle for the integrated circuitry required to effectively monitor the fluid being injected into the body portion at the fluid injection rate and to minimize power consumption. 4. The integrated device of claim 3 , further comprising a marked transparent substrate for exposing a vascular structure of the body portion. 5. The integrated device of claim 3 , wherein the transmitter comprises a Radio Frequency (RF) transmitter and the sensor comprises an RF sensor. 6. The integrated device of claim 5 , further comprising an RF absorbing layer externally disposed over at least a portion of the transmitter, sensor and substrate. 7. The integrated device of claim 3 , wherein the transmitter comprises an ultrasonic transmitter and the sensor comprises an ultrasonic sensor. 8. The integrated device of claim 7 , wherein the signal processor is further configured to detect changes in amplitude and phase for propagation of the power directed into the body portion. 9. The integrated device of claim 3 , wherein the indicator is further configured to indicate a selected one of a deactivated state, a baseline state, and a fluid detected state. 10. The integrated device of claim 3 , wherein the indicator is further configured to indicate a range of sensed values of the power sensed at the sensor. 11. The integrated device of claim 3 , wherein the substrate comprises wound dressing material. 12. The integrated device of claim 3 , wherein the substrate is configured to support the signal processor and the power supply. 13. The integrated device of claim 3 , wherein determining the duty cycle comprises determining a rate of activation of the integration circuitry based on the fluid injection rate and an unacceptable volume of accidentally injected fluid. 14. The integrated device of claim 5 , wherein the substrate comprises an isolating layer containing an iron filler to reduce stray RF power. 15. The integrated device of claim 1 , wherein the predefined percentage is 90% or less. 16. A method for detecting extravasation or infiltration, comprising: mounting an integrated device to an outer surface of a body portion, the integrated d