Hyalocytes have been recognized as resident tissue macrophages of the vitreous body since the mid-19th century. Despite this, knowledge about their origin, turnover, and dynamics is limited. Historically, initial studies on the origin of hyalocytes used light and electron microscopies. Modern investigations across species including rodents and humans will be described. Novel imaging is now available to study human hyalocytes in vivo. The shared ontogeny with retinal microglia and their eventual interdependence as well as...

A complete sample video from the data set used in Figure 5-7. Displayed are larvae of the genotype CirlRescue. For further details, see Supplementary movie S1.

A complete sample video from the data set used in Figure 5-7. Displayed are larvae of the genotype CirlRescue. For further details, see Supplementary movie S1.

Animation of a sample TH <ChR2-XXL larva. The blue dot marks the position of the head. The filling indicates the absolute bending angle in [°]. At t = 30 s, light stimulation activates dopaminergic neurons; at t = 60 s, the light stimulation ends.

Using the adaptive spectral filtering (ASF) method (Stober et al., 2021), we study long-term changes in mesospheric wind and planetary and gravity wave estimates of meteor radar stations in the northern (NH: Collm, Kiruna, Sodankyla, CMOR) and southern hemisphere (SH: Rio Grande, Davis, Rothera) for the altitude range of 80–100 km. Linear trends have been estimated (from monthly means calculated from the ASF-preprocessed original data) by the Theil–Sen estimator (Theil, 1950). The robustness of our...

Supplemental material, sj-pptx-1-inv-10.1177_15569845221133328 for Robot-Assisted Surgery of an Iliac Artery Aneurysm: A Case Report by Grischa Hoffmann, Melanie Rusch, Rouven Berndt, Jan Beckmann, Thomas Becker, Jochen Cremer and Rene Rusch in Innovations: Technology and Techniques in Cardiothoracic and Vascular Surgery

Supplemental material, sj-pptx-1-inv-10.1177_15569845221133328 for Robot-Assisted Surgery of an Iliac Artery Aneurysm: A Case Report by Grischa Hoffmann, Melanie Rusch, Rouven Berndt, Jan Beckmann, Thomas Becker, Jochen Cremer and Rene Rusch in Innovations: Technology and Techniques in Cardiothoracic and Vascular Surgery

A complete sample video from the data set “LCD2A” based on [43]. For further details, see Supplementary movie S1.

A complete sample video from the data set “LCD2A” based on [43]. For further details, see Supplementary movie S1.

Animation of a sample CirlRescue control larva. The blue dot marks the position of the head. The filling indicates the tail forward velocity in body lengths per second [bl/s]. The fast and regular peristaltic cycles can be easily seen by the quick colour changes.

Animation of a sample CirlRescue control larva. The blue dot marks the position of the head. The filling indicates the tail forward velocity in body lengths per second [bl/s]. The fast and regular peristaltic cycles can be easily seen by the quick colour changes.

Animation of a sample TH <ChR2-XXL larva. The blue dot marks the position of the head. The filling indicates the absolute bending angle in [°]. At t = 30 s, light stimulation activates dopaminergic neurons; at t = 60 s, the light stimulation ends.

Hyalocytes have been recognized as resident tissue macrophages of the vitreous body since the mid-19th century. Despite this, knowledge about their origin, turnover, and dynamics is limited. Historically, initial studies on the origin of hyalocytes used light and electron microscopies. Modern investigations across species including rodents and humans will be described. Novel imaging is now available to study human hyalocytes in vivo. The shared ontogeny with retinal microglia and their eventual interdependence as well as...

Animation of a sample R53F07 <ChR2-XXL larva. The blue dot marks the position of the head. The filling indicates the tail forward velocity in body lengths per second [bl/s]. At t = 30 s, light stimulation activates R53F07-neurons; at t = 60 s, the light stimulation ends.

Animation of a sample CirlKO mutant larva. The blue dot marks the position of the head. The filling indicates the tail forward velocity in body lengths per second [bl/s]. In contrast to control larvae (Supplementary movie S7), the rhythm is much slower, with alternating lower and higher maxima.

Animation of a sample CirlKO mutant larva. The blue dot marks the position of the head. The filling indicates the tail forward velocity in body lengths per second [bl/s]. In contrast to control larvae (Supplementary movie S7), the rhythm is much slower, with alternating lower and higher maxima.

A complete sample video from the data set used in Figure 8 (Fig. 9-13 use the same setup). Displayed are larvae of the genotype TH < ChR2- XXL. After 30 s, blue light was presented for 30 s (not visible). For further details, see Supplementary movie S1.

A complete sample video from the data set used in Figure 8 (Fig. 9-13 use the same setup). Displayed are larvae of the genotype TH < ChR2- XXL. After 30 s, blue light was presented for 30 s (not visible). For further details, see Supplementary movie S1.

A complete sample video from the data set used in Figures 1-3. Displayed are Canton S wildtype larvae tested for their innate odour preference (one of the two Teflon cups contained an odour). The original video is overlaid with the contours (green), head (green dot) and tail (red dot) of all detected larvae, as well as an identification number of each detected object (which may be a larva or a ‘blob’ assembly of several larvae)....

Using the adaptive spectral filtering (ASF) method (Stober et al., 2021), we study long-term changes in mesospheric wind and planetary and gravity wave estimates of meteor radar stations in the northern (NH: Collm, Kiruna, Sodankyla, CMOR) and southern hemisphere (SH: Rio Grande, Davis, Rothera) for the altitude range of 80–100 km. Linear trends have been estimated (from monthly means calculated from the ASF-preprocessed original data) by the Theil–Sen estimator (Theil, 1950). The robustness of our...

Animation of a sample R53F07 <ChR2-XXL larva. The blue dot marks the position of the head. The filling indicates the tail forward velocity in body lengths per second [bl/s]. At t = 30 s, light stimulation activates R53F07-neurons; at t = 60 s, the light stimulation ends.

A complete sample video from [26]. For further details, see Supplementary movie S1.

A complete sample video from [26]. For further details, see Supplementary movie S1.

A complete sample video from the data set used in Figures 1-3. Displayed are Canton S wildtype larvae tested for their innate odour preference (one of the two Teflon cups contained an odour). The original video is overlaid with the contours (green), head (green dot) and tail (red dot) of all detected larvae, as well as an identification number of each detected object (which may be a larva or a ‘blob’ assembly of several larvae)....