Loading effects on the performance of needle free jet injections in different skin models

Abstract: Intradermal delivery of vaccines with jet injection is one of the leading alternatives to conventional delivery with hypodermic needles via the Mantoux technique. However, for a given fluid, the effects of various parameters related to injector design, as well as skin properties are still not well understood. Whilst the key design parameters are orifice diameter, jet speed, ampoule volume, and standoff distances, we must also consider applied load of the device on the skin, and axial skin tension. These parame… Show more

“…As shown in earlier studies, higher percentage delivery was obtained for jet injection of liquid in lower volumes [35]. It was hypothesized that there is a limit of liquid volume which can be injected into the skin without significant rejection.…”

“…The thickness of the dermis layer of porcine skin harvested from different pigs (hence, different colors in figure 6) was within 3 mm. The effect of force exerted by the jet injector (loading) in the normal and axial direction during injection has been reported in an earlier study [35], and therefore we used a recommended normal load of 1 kg for the maximum delivery efficiency at which the injection was actuated.…”

“…A spring-based jet injector (Bioject ID pen) was used in the experiments, which is described in detail in other works [33, 34, 35], but comprises a stiff spring piston with a cartridge with an orifice of diameter, d 0 ~157μm . DI water was filled in a transparent nozzle cartridge with a volume capacity of 0.11 ml.…”

Effect of air pockets in drug delivery in jet injections

“…As shown in earlier studies, higher percentage delivery was obtained for jet injection of liquid in lower volumes [35]. It was hypothesized that there is a limit of liquid volume which can be injected into the skin without significant rejection.…”

“…The thickness of the dermis layer of porcine skin harvested from different pigs (hence, different colors in figure 6) was within 3 mm. The effect of force exerted by the jet injector (loading) in the normal and axial direction during injection has been reported in an earlier study [35], and therefore we used a recommended normal load of 1 kg for the maximum delivery efficiency at which the injection was actuated.…”

“…A spring-based jet injector (Bioject ID pen) was used in the experiments, which is described in detail in other works [33, 34, 35], but comprises a stiff spring piston with a cartridge with an orifice of diameter, d 0 ~157μm . DI water was filled in a transparent nozzle cartridge with a volume capacity of 0.11 ml.…”

Effect of air pockets in drug delivery in jet injections

“…To combat this, various design parameters such as orifice diameter, ampoule volume, standoff distance, viscous losses in the nozzle, and jet speed profile have been studied in the literature [2,7,8]. The physical properties of the vaccine and mechanical properties of the skin also affect the delivery efficiency and the dispersion of the drug inside the skin [9,10].…”

Loading effects on the performance of needle-free jet injections in different skin models