Devices and methods for withdrawing bodily fluid from a subject are disclosed herein. In some embodiments, a handheld device can include a housing having an opening, a skin-piercing assembly, and an actuator coupled to the skin-piercing assembly. The skin-piercing assembly can include a casing, a drive member pivotably mounted within the casing and carrying a blade, and a biasing member coupling the drive member to the casing. The actuator can be movable relative to the housing from a first position to a second position. In the first position, the drive member can engage the casing to maintain the biasing member in a biased configuration. Movement of the actuator from the first position to the second position can disengage the drive member from the casing to permit the biasing member to drive the blade at least partially through and/or across the opening in the base.

A sample collection device for collecting a blood sample of a patient, the sample collection device including a first partially deformable shell and a second at least partially pierceable shell with a pre-packaged vacuum sealed between the first shell and the second shell. The second shell may additionally hold a sample container and an automatic mechanical cutting mechanism including a rotatable cutting blade and an actuator spring, the actuator spring being actuatable by pressing the first shell, thereby releasing and rotating the cutting blade. By pressing the first shell, the pre-packaged vacuum is released to a collection opening of the second shell such that the vacuum effects a suction effect so that blood coming out of the incision created by the rotatable cutting blade leaks into the sample container.

A fluid sampling device and a method is provided for collecting body fluid samples such as blood without the intervention of medically trained personnel. The body fluid sampling device having a sample containment chamber made of a material having a thermal inertia permitting the maintenance of sample temperature over a known period of time. Optionally an isolating cover or sleeve may slide in place by a mechanism triggered by thermal contraction of an element after the device has reached a sufficiently low temperature in a patients refrigerator. Associated methods are provided to ensure hermetic transport of the collected body fluid sample to an analysis lab. Also disclosed is a device and app combination for drug or vaccine injection, the app including means to allow for verification of the patient's ID and/or the particular device used. The device my be equipped with geo-localization and long-range communication capabilities.

Devices and methods for withdrawing bodily fluid from a subject are disclosed herein. In some embodiments, a handheld device can include a housing having an opening, a skin-piercing assembly, and an actuator coupled to the skin-piercing assembly. The skin-piercing assembly can include a casing, a drive member pivotably mounted within the casing and carrying a blade, and a biasing member coupling the drive member to the casing. The actuator can be movable relative to the housing from a first position to a second position. In the first position, the drive member can engage the casing to maintain the biasing member in a biased configuration. Movement of the actuator from the first position to the second position can disengage the drive member from the casing to permit the biasing member to drive the blade at least partially through and/or across the opening in the base.

Devices and methods for withdrawing bodily fluid from a subject are disclosed herein. In some embodiments, a handheld device can include a housing having an opening, a skin-piercing assembly, and an actuator coupled to the skin-piercing assembly. The skin-piercing assembly can include a casing, a drive member pivotably mounted within the casing and carrying a blade, and a biasing member coupling the drive member to the casing. The actuator can be movable relative to the housing from a first position to a second position. In the first position, the drive member can engage the casing to maintain the biasing member in a biased configuration. Movement of the actuator from the first position to the second position can disengage the drive member from the casing to permit the biasing member to drive the blade at least partially through and/or across the opening in the base.

A sample collection device for collecting a blood sample of a patient, the sample collection device including a first partially deformable shell and a second at least partially pierceable shell with a pre-packaged vacuum sealed between the first shell and the second shell. The second shell may additionally hold a sample container and an automatic mechanical cutting mechanism including a rotatable cutting blade and an actuator spring, the actuator spring being actuatable by pressing the first shell, thereby releasing and rotating the cutting blade. By pressing the first shell, the pre-packaged vacuum is released to a collection opening of the second shell such that the vacuum effects a suction effect so that blood coming out of the incision created by the rotatable cutting blade leaks into the sample container.

A microneedle (100) for extracting a blood sample from the skin (10) of a mammal subject is disclosed. The microneedle comprises at least one substantially flat blade (110) comprising at least one cutting edge (120a, 120b) configured to incise the skin of the mammal subject, and at least one microchannel (130) comprising an opening (132) and a passage (134). The at least one microchannel is arranged adjacent to the at least one blade and configured to be inserted into the skin of the mammal subject together with the at least one blade. The passage is configured to transport the blood sample away from the opening via capillary action. A device (200) for extracting a blood sample from a mammal subject comprising a microneedle is also disclosed.

A lancing device includes a lancet body (14) of elongate form and having a sharp tip (16) at the forward end thereof; a drive spring (26) for imparting generally longitudinal movement to the lancet body, and a housing (10) receiving the lancet body and having an aperture (22) in the forward end thereof through which the sharp tip (16) of the lancet body projects in use when the device is fired. The device includes elements (28, 30, 32) for controlling movement of the lancet body (14) to cause the tip of the lancet to execute a lateral movement when it projects from the aperture.

A sample collection device for collecting a blood sample of a patient, the sample collection device including a first partially deformable shell and a second at least partially pierceable shell with a pre-packaged vacuum sealed between the first shell and the second shell. The second shell may additionally hold a sample container and an automatic mechanical cutting mechanism including a rotatable cutting blade and an actuator spring, the actuator spring being actuatable by pressing the first shell, thereby releasing and rotating the cutting blade. By pressing the first shell, the pre-packaged vacuum is released to a collection opening of the second shell such that the vacuum effects a suction effect so that blood coming out of the incision created by the rotatable cutting blade leaks into the sample container.