Disclosed are real-time insect surveillance sensor devices and methods that use a colorimetric readout for detecting insect disease vectors (such as mosquitoes which can transmit pathogens such as DENV, CHIKV, and ZIKV). The method involves an attractive or feeding solution combined with detector conjugates. The conjugate can specifically detect proteins present in insect saliva and/or proteins specific to mosquito-borne pathogens.

An apparatus includes a housing having an aperture extending through a wall of the housing, a carbon dioxide delivery device coupled to the housing through the aperture, a non-biological skin substitute substrate, and a heater coupled to the substrate.

Described herein are compositions and methods useful for isolating compositions that repel insects, including mosquitoes.

An apparatus includes a portable housing with a cavity, a heater disposed within the cavity of the housing, a temperature buffering device coupled to the heater and disposed within the cavity of the housing, a non-biological skin substitute substrate coupled to the temperature buffering device and disposed within the cavity of the housing, and a carbon dioxide delivery device coupled to the housing. The non-biological skin substrate simulates a surface property of human skin.

Disclosed are real-time insect surveillance sensor devices and methods that use a colorimetric readout for detecting insect disease vectors (such as mosquitoes which can transmit pathogens such as DENV, CHIKV, and ZIKV). The method involves an attractive or feeding solution combined with detector conjugates. The conjugate can specifically detect proteins present in insect saliva and/or proteins specific to mosquito-borne pathogens.

Disclosed are real-time insect surveillance sensor devices and methods that use a colorimetric readout for detecting insect disease vectors (such as mosquitoes which can transmit pathogens such as DENV, CHIKV, and ZIKV). The method involves an attractive or feeding solution combined with detector conjugates. The conjugate can specifically detect proteins present in insect saliva and/or proteins specific to mosquito-borne pathogens.

An apparatus includes a housing having an aperture extending through a wall of the housing, a carbon dioxide delivery device coupled to the housing through the aperture, a non-biological skin substitute substrate, and a heater coupled to the substrate.

An apparatus and method for testing the efficacy of an insect repellent is disclosed. The apparatus according to one embodiment includes a housing having an aperture extending through a wall of the housing, a carbon dioxide delivery device coupled to the housing through the aperture, a skin substitute substrate, and a heater coupled to the substrate. The method includes the steps of providing a skin substitute substrate, treating the skin substitute substrate with an insect repellent, exposing a plurality of insects to the treated skin substitute substrate for a first period of time, blocking the treated skin substitute substrate from the plurality of insects for a second period of time, and recording the insect repellent's complete protection time.

Disclosed are real-time insect surveillance sensor devices and methods that use a colorimetric readout for detecting insect disease vectors (such as mosquitoes which can transmit pathogens such as DENV, CHIKV, and ZIKV). The method involves an attractive or feeding solution combined with detector conjugates. The conjugate can specifically detect proteins present in insect saliva and/or proteins specific to mosquito-borne pathogens.

An apparatus and method for testing the efficacy of an insect repellent is disclosed. The apparatus according to one embodiment includes a housing having an aperture extending through a wall of the housing, a carbon dioxide delivery device coupled to the housing through the aperture, a skin substitute substrate, and a heater coupled to the substrate. The method includes the steps of providing a skin substitute substrate, treating the skin substitute substrate with an insect repellent, exposing a plurality of insects to the treated skin substitute substrate for a first period of time, blocking the treated skin substitute substrate from the plurality of insects for a second period of time, and recording the insect repellent's complete protection time.