Clinical Evaluation of a New, Lower Pain, One Touch Lancing Device for People With Diabetes: Virtually Pain-Free Testing and Improved Comfort Compared to Current Lancing Systems.

BACKGROUND: Patients worldwide use lancing devices to perform self-monitoring of blood glucose (SMBG). Continued innovation remains important to minimize pain associated with finger sticking to facilitate patient adherence to SMBG regimens. The original One Touch Delica lancer (OTD) reduced the pain of testing. This study investigated a completely re-engineered lancing system, called One Touch Delica Plus (OTDP), intended to further minimize pain while improving the patient experience. METHODS: One hundred and three subjects (type 1 or 2 diabetes) experienced finger sticks with both lancing systems. Device depth and blood volume (BV) generation were determined during visit 1. These parameters were used during pain assessments in visit 2. Patient feedback was also recorded using surveys. RESULTS: Finger-stick testing was less painful using OTDP compared to original OTD irrespective of whether 30 (-48.2 mm, -30.4 mm, P < 0.0001) or 33 gauge (-42.6 mm, 30.5 mm, P = 0.0004) lancets were used. All 103 subjects generated the required BV (≥0.4 µL) per protocol. At equivalent depth penetration, OTDP generated higher average BVs than OTD using 30 (1.58 µL, 1.10 µL) or 33 gauge lancets (1.39 µL, 0.98 µL). Subjects responded that testing with OTDP was virtually pain free (78%) and that testing with OTDP was less painful than using their current lancing systems (79%) or original OTD (67%). CONCLUSION: OTDP demonstrated lower pain than the original OTD lancing system and participants agreed that testing with OTDP was virtually pain free and less painful than using their current lancing systems.

Capabilities of Next-Generation Patch Pump: Improved Precision, Instant Occlusion Detection, and Dual-Hormone Therapy.

Insulin pumps allow patients to attain better blood glucose control with more lifestyle flexibility. Their size and cost, however, limit their usefulness. Current CSII pumps are bulky, intrusive, and expensive. SFC Fluidics is addressing these problems by developing a new type of wearable patch pump based on the patented electro-chemiosmotic (ECO) microfluidic pumping technology. This nonmechanical pumping technology allows accurate and precise delivery of very small amounts of insulin and/or other drugs, including concentrated insulin. The pump engine is small and can be made inexpensively from injection molded parts, allowing its use in a disposable or semidisposable pod format. In addition, a single ECO pump engine can be used to deliver two drugs through independent pathways. Other features of SFC Fluidics' pod include latching safety valves that prevent accidental overdosing of insulin due to pressure changes and an instantaneous occlusion sensor that can immediately detect delivery failure at the first missed dose. These features allow for the development of a series of patch pumps that will offer users the benefit of CSII therapy in a more discreet and reliable patch pump form.