A Qualitative Assessment of Blunt Smokers' Perceptions and Receptivity to Non-Tobacco Blunt Wraps.

Objective: The recent debut of the non-tobacco blunt wrap (N-TBW) for smoking cannabis has received little attention from the tobacco control community. The present study is intended to assess blunt smokers' perceptions and receptivity to N-TBWs, which are being marketed as an alternative to cigarillos and other tobacco products used for making blunts.

Method: Current blunt smokers ( = 41) were recruited from social media platforms to participate in one of nine 2-hour focus groups held between October 2022 and May 2023.

In vitro and in vivo testing of an electrocatalytic glucose sensor.

A prerequisite for the development of an implantable artificial pancreas is the availability of a stable, long-life glucose sensor. Platinum (Pt) catalyzed electrodes have been demonstrated in vitro to show high sensitivity to glucose and long cycle life but are more sensitive to co-reactants compared with enzymatic methods. The authors developed a special data processing method (compensated net charge ratio, or CNCR) in which the measured electrode response is very sensitive to glucose, completely insensitive to urea, and only moderately sensitive to amino acids.

Electrocatalytic glucose sensor.

High surface area platinum subjected to the appropriate electrical potential cycling regimes exhibits considerable electrocatalytic activity towards glucose oxidation. We have developed a special data processing method, the compensated net charge (CNC) method, to take advantage of the electrocatalytic activity of platinum. This method involves the determination of the net oxidation charge during one complete cycle of a cyclic voltammogram applied to the platinum electrode in a potentiodynamic mode.

Bioevaluation of plasma polymerized films in skeletal muscle.

Plasma polymerized ethylene (PPE), styrene (PPS), and chlorotrifluoroethylene (PPCTFE) were synthesized by exposing the monomeric gases to an inductively coupled radio frequency "glow-discharge" field. The polymer films were deposited on poly(dimethyl) siloxane (medical grade Silastic), which was then surgically implanted in rat paravertebral muscle for periods up to 84 weeks. The biocompatibility of the plasma deposited films and uncoated Silastic was evaluated by qualitative (graded inflammatory cell response) and quantitative (connnective tissue capsule thickness) techniques as a function of time.