The increased risk of plantar ulceration in patients with diabetic polyneuropathy (DPN) is often associated with a heterogeneous plantar pressure distribution characterized by overloading of anterior regions, unloading of toes and hallux, and a reduced role of lateral forefoot and toes in the foot rollover during stance phase.
AFTER EFFECTS 2014 STRETCHING IMAGE TRIAL
Trial registrationĬ Identifier: NCT01207284, registered in 20 th September 2010. Continuous monitoring of the foot status and patient education are necessary, and can contribute to preserving the integrity of foot muscles and joints impaired by polyneuropathy. Intervention discreetly changed foot rollover towards a more physiological process, supported by improved plantar pressure distribution and better functional condition of the foot ankle complex. In most cases, the values returned to baseline after the follow-up (p<.05). A slower COP mean velocity (p=.05), and an increase in overall foot and ankle function (p<.05) were also observed. ResultsĮven though the intervention group primary outcome (PP) showed a not statistically significant change under the six foot areas, intention-to-treat comparisons yielded softening of heel strike (delayed heel TPP, p=.03), better eccentric control of forefoot contact (decrease in ankle extensor moment, p<.01 increase in function of ankle dorsiflexion, p<.05), earlier lateral forefoot contact with respect to medial forefoot (TPP anticipation, p<.01), and increased participation of hallux (increased PP and PTI, p=.03) and toes (increase in PTI, medium effect size). Secondary outcomes involved time-to-peak pressure (TPP) and pressure–time integral (PTI) in six foot-areas, mean center of pressure (COP) velocity, ankle kinematics and kinetics in the sagittal plane, intrinsic and extrinsic muscle function, and functional tests of foot and ankle.
Primary outcomes involved foot rollover changes during gait, including peak pressure (PP). Both groups were assessed after 12 weeks, and the intervention group at follow-up (24 weeks). Exercises for foot-ankle and gait training were administered twice a week, for 12 weeks, to 26 patients assigned to the intervention group, while 29 patients assigned to control group received recommended standard medical care: pharmacological treatment for diabetes and foot care instructions. Fifty-five patients diagnosed with diabetic polyneuropathy, 45 to 65 years-old were recruited. MethodsĪ two-arm parallel-group randomized controlled trial with a blinded assessor was designed.
What’s your favorite way to adjust time in After Effects? Share you thoughts in the comments below.Foot musculoskeletal deficits are seldom addressed by preventive medicine despite their high prevalence in patients with diabetic polyneuropathy.ĪIM: To investigate the effects of strengthening, stretching, and functional training on foot rollover process during gait. So you will likely have to move your layer around in the timeline to match your needs. Step 3: Adjust to Desired Location in the Timelineīy default, your footage will scale around its first frame. To adjust the duration of your layer, simply select the blue text under the stretch category in the timeline. You can also stretch your footage negatively in the timeline if you want it to play backwards. It can be anything: cameras, solids, shapes, footage, etc. Select the layer which you want to time remap in the timeline.
AFTER EFFECTS 2014 STRETCHING IMAGE UPGRADE
May this tutorial serve as an inspiration for you to upgrade to CC 2015. Quick Note: This quick tip is only compatible with After Effects version CC 2015 or higher. Easily speed up or slow down your footage using these quick tips.Īfter Effects is a great program for doing time-remapping, especially if you want to do complex speed ramping. However, if you’re just wanting to stretch the overall speed of your layer, you can use this quick trick to easily stretch footage in After Effects.