Time Savings Using a Digital Workflow versus a Conventional for Intraocular Lens Implantation in a Corporate Chain Hospital Setting [Corrigendum]

Rombold F, Niederdellmann C, Pariti R, Khayat B. Clin Ophthalmol. 2024;18:113-119. On page 113, Abstract, Results subheading, “The digital cataract workflow resulted in shorter mean (± standard deviation [SD]) preoperative assessments with lesser variability among individual assessments than the existing workflow (14.15 ± 1.86 vs 21.41 ± 1.18 min, respectively); with a time saving of 35%” should have been “The digital cataract workflow resulted in shorter mean (± standard deviation [SD]) preoperative assessments with lesser variability among individual assessments than the existing workflow (14.15 ± 1.18 vs 21.41 ± 2.26 min, respectively); with a time saving of 35%”. On page 115, Results section, Preoperative Assessments, 2nd paragraph, “The overall mean (±SD) process time for the preoperative assessments was reduced in the digital cataract workflow (14.15 [±1.86] min) compared to the existing conventional workflow (21.41 [±1.18] min) with an overall time saving of approximately 35% (Table 1)” should have been “The overall mean (±SD) process time for the preoperative assessments was reduced in the digital cataract workflow (14.15 [±1.18] min) compared to the existing conventional workflow (21.41 [±2.26] min) with an overall time saving of approximately 35% (Table 1)”. On page 116, Table 1, Preoperative assessments# row, the standard deviation values in the 3rd and 4th columns were flipped in error, 14.15 ± 1.86 should be 14.15 ± 1.18 and 21.41 ± 1.18 should be 21.41 ± 2.26. The authors apologize for any inconvenience caused by these errors and for any confusion that may have arisen as a result. They would like to assure the readers that these corrections do not affect the results or conclusions of the paper

Effects of a weak DC-electric field on root growth in Arundo donax (Poaceae).

Electric fields can determine changes at the morphological and the physiological level in plants. Plants of Arundo donax L. (giant reed), obtained by set, grown on organic substrate were exposed to a DC electric field. A significant increase in growth rate was observed in the shoots and roots of treated plants. Treated roots also showed a modification in their morphology as compared to untreated ones. Our results point to a possibility of applying electric fields in plant propagation and reproduction