The Mediating Role of Receptive Language in the Relationship between Verbal Memory and Language Production in Preschool Children

Research has demonstrated a close relationship between verbal short-term (STM) and working memory (WM) and receptive language in children (Baddeley, Gathercole, & Papagno, 1998; Ellis & Sinclair, 1996). Few studies have examined the relationship between memory and language production, and these studies focus on STM only. Though correlations have been found between verbal STM and production, the nature of the correlations are unclear. The current study examined the possibility that receptive language mediates the relationship between memory and language production. Children between 3;0 and 5;11 were administered tests assessing receptive vocabulary, receptive grammar, expressive vocabulary, verbal STM, and verbal WM. Additionally, transcripts from free-play sessions were used to assess grammar production. A regression based analytic approach revealed STM and WM mediate the relationship between receptive language and productive language. The existence of these mediated relationships are discussed in relation to the role of working memory in the speech output buffer

Generation and transport of a low energy intense ion beam

The paper describes experiments on the generation and transport of a low energy (70-120 keV), high intensity (10-30 A/cm(2)) microsecond duration H+ ion beam (IB) in vacuum and plasma. The IB was generated in a magnetically insulated diode (MID) with an applied radial B field and an active hydrogen-puff ion source. The annular IB, with an initial density of j(i)similar to10-20 A/cm(2) at the anode surface, was ballistically focused to a current density in the focal plane of 50-80 A/cm(2). The postcathode collimation and transport of the converging IB were provided by the combination of a "concave" toroidal magnetic lens followed by a straight transport solenoid section. With optimized MID parameters and magnetic fields in the lens/solenoid system, the overall efficiency of IB transport at the exit of the solenoid 1 m from the anode was similar to 50% with an IB current density of 20 A/cm(2). Two-dimensional computer simulations of post-MID IB transport supported the optimization of system parameters. (C) 2004 American Institute of Physics

Single-incision apical and posterior mesh repair: 1-year prospective outcomes

The objective of this study was to assess the safety and efficacy of the Elevate Apical and Posterior single-incision mesh system (SIMS) with IntePro Lite for pelvic organ prolapse repair. This prospective multicenter study included 139 women with a parts per thousand yen stage II posterior vaginal prolapse and/or apical descent who underwent placement of type I polypropylene mesh through a single transvaginal incision with no external needle passes. Primary endpoint was the percent of patients with posterior and/or apical stage a parts per thousand currency sign I ("cure") at follow-up. Secondary endpoints included, but were not limited to, rate of mesh extrusion and disease-specific quality of life outcomes. At 12 months, objective posterior wall and apical cure rates were 92.5 and 89.2 %, respectively, with an extrusion rate of 6.5 %. The SIMS appears to be effective and safe in treating patients with posterior vaginal and/or apical prolapse. The risks and benefits of transvaginal synthetic mesh insertion should be considere

Elevate and Uterine Preservation: Two-Year Results

To evaluate efficacy of the Elevate Anterior and Apical (EAA) in the repair of pelvic organ prolapse (POP) when performed after previous hysterectomy and with or without uterine preservation during POP surgery. One hundred forty-two women with anterior vaginal prolapse and/or apical descent ≥ stage II were enrolled. The primary outcome was treatment failure defined as > stage II POP-Q during follow-up using the Last observed Failure Carried Forward method. Three sub-groups were analysed: baseline previous hysterectomy (N = 61); concomitant hysterectomy (N = 29), and preserved uterus/no hysterectomy (N = 51). Demographics, primary and secondary outcomes, and extrusion were compared between the groups. A P value less than 0.05 was considered statistically significant. Anatomic success shows significant and durable improvement at 24 months. The success for the apical compartment ranged between 93.8% and 100%. Success was slightly lower for the anterior compartment (70.8-89.1%). No statistically significant difference between the 3 subgroups. Age was the only patient characteristic to be found different between the 3 subgroups. In addition, there was no difference in overall intraoperative complications (P = 0.263). Mesh extrusion was found in all groups: 3 of 61 (4.9%) had previous hysterectomy; 4 of 29 (13.8%) had concomitant hysterectomy; and 1 of 51 (2.0%) had uterus preserved (P = 0.094). There appears to be a trend toward higher extrusion when a hysterectomy was performed with the EAA. Anatomic success and complications for the EAA do not appear to be significantly impacted when the uterus is removed before or during surgery or preserved. There may be a trend toward increased mesh extrusion when a hysterectomy is performed. However, larger cohort studies are needed to determine if concomitant hysterectomy impact extrusio

Generation and transport of a low energy intense ion beam

The paper describes experiments on the generation and transport of a low energy (70-120 keV), high intensity (10-30 A/cm(2)) microsecond duration H+ ion beam (IB) in vacuum and plasma. The IB was generated in a magnetically insulated diode (MID) with an applied radial B field and an active hydrogen-puff ion source. The annular IB, with an initial density of j(i)similar to10-20 A/cm(2) at the anode surface, was ballistically focused to a current density in the focal plane of 50-80 A/cm(2). The postcathode collimation and transport of the converging IB were provided by the combination of a "concave" toroidal magnetic lens followed by a straight transport solenoid section. With optimized MID parameters and magnetic fields in the lens/solenoid system, the overall efficiency of IB transport at the exit of the solenoid 1 m from the anode was similar to 50% with an IB current density of 20 A/cm(2). Two-dimensional computer simulations of post-MID IB transport supported the optimization of system parameters. (C) 2004 American Institute of Physics