The Influence of Pulse-synchronized Negative Pressure on the Dermal Microcirculation (PSyNeP)

Orputec has developed a device that uses the technology of a pulse-synchronized alternating pressure system. It can be applied in the field of regenerative medicine to treat lymphedema by improving the blood- and lymphatic circulation. The machine consists of four components: an electrocardiograph (ECG), a vacuum pump, a software controlling the timing of suction and drainage, and an individual suction cap for each patient.

The study is designed as an open, interventional cohort, intraindividually controlled, pilot study. A pilot sample size of 12 is chosen because the device will be tested in a controlled setting for the first time. No formal sample size calculation was performed.

The collective consists of 12 subjects, with diabetes mellitus (DM) type 2 but no apparent wounds on the lower leg. Before inclusion, subjects will be screened for current skin lesions in the region of interest (ROI), comorbidities, and their medical history concerning diabetes and skin lesions. The ROI on both lower legs will be marked, and the dermal microcirculation will be measured, non-invasively, using LD, HS, and TH. After ensuring a comfortable position, each subject will receive treatment with the PSNP device on one chosen lower leg for 120 minutes. During the treatment, a warming unit, which is also used after flap surgery to maintain an adequate ambient temperature, will be used to obtain local thermal hyperaemia, hence a prospected dilation of the vessels. The non-invasive imaging (LD, HS, TH) will be performed before and after the intervention. This treatment course will be applied twice a day (with 4h +/- 2h in between) for two consecutive days. Toleration of the treatment and wellbeing of the subjects will be assessed by a Visual Analog Scale (VAS). Finally, another series of imaging (LD, HS, TH) will be performed on the morning of the third day without a prior intervention.

Statistical analysis of numeric endpoints: All numeric endpoints will be checked for normality, e.g. by using a Shapiro-Wilk test. If a numeric endpoint deviates from normality, then data transformations (e.g. log-transformation) will be considered. Numeric endpoints will be analysed by means of a repeated measures analysis of variance (ANOVA). The level of significance will be set to 5% in all analyses. No adjustment for multiple comparisons will be performed.

Additionally, the following comparisons will be performed by using descriptive statistics (e.g. Q1, median, Q3, mean, standard deviation) and graphical methods (e.g. box plots):

• Comparison of time points (prior to intervention on day 1; after intervention on day 1; prior to control on day 1; after control on day 1 and day 3) within each treatment condition (intervention: treated leg; control: untreated leg).
• Comparison of treatment conditions (treated vs. untreated legs) for each time point.

In order to identify influencing factors for the effect of the PSNP treatment, the investigators will use graphical methods as well as regression models and mixed effects models (e.g., analysis of covariance).