A wide body of evidence substantiates the efficacy of InsuJet™.
Take a deeper dive into the research that speaks to its benefits.
Adult, overweight or obese (BMI ≥25 and ≤40 kg/m2) patients with type 1 diabetes (n=10) or insulin-treated type 2 diabetes (n=10) were enrolled in a randomized, controlled, crossover study. On two separate occasions, patients were instructed to reduce insulin dose(s) to achieve marked hyperglycaemia (18–23 mmol/l). Subsequently, insulin aspart was administered either by jet injection or by conventional pen, in a dose based on estimated individual insulin sensitivity. Pharmacodynamic and pharmacokinetic profiles were derived from plasma glucose and insulin levels, measured for 6 h after injection.
It was concluded that administration of rapid-acting insulin by jet injection results in faster correction ofmarked hyperglycaemia in overweight or obese patients with insulin-requiring diabetes.
Jet injectors allow needle-free insulin delivery. The study objective was to compare the tolerability and device preference of subcutaneous insulin aspart delivery by jet injector with pen injection in an open-label, randomized, crossover pilot study.
In this small pilot study, the devices were similar in glucose excursion in the area under the glucose concentration–time curve corrected for baseline glucose level and in insulin absorption. Devices were similar for participant preference and relative injection pain.
It was concluded that subcutaneous jet injection of aspart insulin was well tolerated.
Clamp studies have shown that the absorption and action of rapid-acting insulin are faster with injection by a jet injector than with administration by conventional pen. To determine whether these pharmacokinetic changes also exist in patients with diabetes and benefit postprandial glucose control, a comparison was made of the pharmacologic profiles of insulin administration by jet injection versus conventional insulin pen after a standardized meal in patients with type 1 or type 2 diabetes.
Results showed that insulin administration by jet injection resulted in shorter time until peak plasma insulin level and reduced hyperglycemic burden during the first hour compared with conventional ad-ministration. Jet injection did not, however, significantly reduce the hyperglycemic burden during the 5-h period thereafter. There was no indication that the jet injector performed differently in patients with type 1 and type 2 diabetes.
It was concluded that the considerably more rapid insulin absorption after administration by jet injector translated to a significant if modest decrease in postprandial hyperglycemia in patients with type 1 and type 2 diabetes. The improved early postprandial glucose control may specifically benefit patients who have difficulty in limiting postprandial glucose excursions.
In a euglycaemic glucose clamp study with healthy volunteers it was showed that using jet injectors, rather than conventional pens, significantly improved the time-action profiles of rapid-acting insulin analogs. Here, it was investigated whether such profiles were modified by body mass index (BMI) and related weight parameters by comparing insulin administration by jet injection to that by conventional pen in subgroups defined by BMI, waist-to-hip ratio, waist circumference and insulin dose.
After conventional administration, times to peak insulin levels (T-INSmax) occurred 31.1 [95% confidence interval (CI) 13.7–48.5] minutes later and time to maximum glucose requirement (T-GIRmax) 56.9 (95%CI 26.6–87.3) minutes later in more obese (BMI > 23.6 kg/m2) than in lean subjects (BMI < 23.6 kg/m2). In contrast, T-INSmax and T-GIRmax were similar in subjects with high and low BMI, when insulin was administered by jet injection.
It was concluded that using jet injection for insulin administration may especially benefit subjects with higher body weight.
InsuJet™ 's clinical trials, performed by a renowned Dutch academic hospital, were performed to com-pare the pharmacologic profile of administration of insulin aspart by jet injection to that by convention-al insulin pen.
Results showed that the time to maximal GIR was significantly shorter when insulin was injected with the jet injector, compared with conventional pen administration. The time to peak insulin concentration was similarly reduced and peak insulin concentrations were increased. Jet injector insulin administration reduced the time to 50% glucose disposal. No differences were measured in maximal GIR, total insulin absorption, or total insulin action between the two devices.
Conclusions were drawn that administration of insulin aspart by jet injection enhances insulin absorption and reduces the duration of glucose-lowering action. This profile resembles more closely the pat-tern of endogenous insulin secretion and may help to achieve better meal insulin coverage and correction of postprandial glucose excursions.
InsuJet™ works by pushing liquid under high pressure through a tiny orifice in the front of a nozzle, the liquid gets enough speed and pressure to pass through the skin. Once in the subcutaneous tissue, the liquid follows the path of least resistance, which ensures good distribution of the liquid.
Or better, one InsuJet™ is suitable for any size, gender, or age of subject. InsuJet™ may especially benefit people with a higher Body Mass Index (BMI).
Contact us to arrange an appointment with your regional manager or distributor to demonstrate or further explain the InsuJet™ system.
InsuJet™ works with 10XCREW our distribution partner to fulfil orders shipped to Asia/Pacific, EU, and MENA regions. For more information about 10XCREW please visit www.10xcrew.com
01.兼容的胰岛素类型：人和动物；速效胰岛素（推注）；速效胰岛素类似物；常规人胰岛素；基础胰岛素；中效，通常：NPH/ 异丙烷；长效，常用：甘精、地特米尔、德谷；预混料（例如 30/70）。
02.在一项用户调查中，78% 的受访者回答他们会向其他人推荐 InsuJet™。
03. 在一项用户调查中，40% 的受访者表示他们注意到使用较少的胰岛素。
04.无针喷射速效胰岛素可改善糖尿病患者的早期餐后血糖控制。糖尿病护理，2013 年 10 月。
05.体重指数和无针喷射注射对速效胰岛素类似物的疗效，事后分析。糖尿病、肥胖和代谢，2012 年 7 月。
06.使用无针喷射技术改进速效胰岛素的药代动力学和药效学特征。糖尿病护理，2011 年 8 月
07.一项初步研究，以检查 InsuJet™ 与皮下注射相比对 1 型糖尿病患者的胰岛素耐受性和设备偏好。糖尿病技术与治疗学，2014 年。
09.用皮下注射针头每天注射 4 次计算。一年中的每一天，每天注射 4 针，每年可节省 1,460 根针头。
*。 InsuJet™ 针对 U-100 胰岛素进行了校准
**。 针规 26-27 常用于皮下注射，直径约为 0.40 - 0.45mm。 InsuJet™ 喷嘴的孔口直径约为 0.15 毫米，远小于用于皮下注射胰岛素的传统针规。
***。 https://pubmed.ncbi.nlm.nih.gov PMID:18820853