The Association between Needle Size and Waste Product and Its Effect on Cost-Effectiveness of Botulinum Toxin Injections?

Facial Plast Surg DOI: 10.1055/s-0040-1713793Clostridium botulinum toxin (BT) must be administered intramuscularly with a syringe, but dead space in the syringe–needle complex may cause product waste and result in cost implications for the patient and provider. Syringe dead space is the volume of residual fluid that remains within the syringe after the plunger is fully depressed during medication injection. We calculated the average volume of remaining product in a syringe–needle complex and cost loss implication of this volume of BT. This is a single-center, analytical study using saline and four different sized needles for analytics of waste product and cost-effectiveness. Syringes of 1 mL with attached 18, 21, 30, and 32-gauge (G) needles, respectively, were compared. The syringe–needle complex was weighed before drawing 0.05 mL of saline. The fluid was then discarded with the appropriate syringe and then weighed again. This procedure was repeated for the four needle types and the average difference in weight of the syringe–needle complex before and after saline waste was measured. The volume was converted to units of BT used in clinical practice and the cost of waste product evaluated. The mean difference in needle–syringe complex weight before and after intervention was 0.068, 0.056, 0.04, and 0.026 g for the 18, 21, 30, and 32G needles, respectively. We found a statistically significant difference comparing the 18G with the 30 and 32G (0.02 and 0.0007, r...
Source: Facial Plastic Surgery - Category: Cosmetic Surgery Authors: Tags: Original Research Source Type: research