The impact of self-sustained oscillations on particle residence time in a commercial scale spray dryer

Spray drying is an established technique, which widely employs cylinder-on-cone type chambers. The air flow patterns inside such chambers are usually governed by transient fluctuations, which impact particle movement and drying history. To understand this impact, CFD using Lagrangian particle tracking through Eulerian flow-field was employed. The simulations revealed transient flow structures due to central jet deflections followed by rotating upwards sweep and formation of vortices. The self-sustained-fluctuations were intensified by high velocity of the main hot air inlet, while lower temperature thereof led to smoother fluctuations. Detailed numerical analyses on particles sampled at the outlet revealed that the distinct transient flow-field actually reduced the particle residence time compared to the residence time estimated via a simplified method ignoring flow-field fluctuations, while generating a wider distribution. No simple correlation was ascertained between the particle size and the residence time distributions, which indicates all sizes considered in the work are affected similarly by the air flow. These findings will benefit the designing of spray dryers

Fluorescent video-microscopy study of regulatory volume decrease in primary culture of rabbit proximal convoluted tubule.

International audienceThe ability of proximal convoluted tubules in primary culture to regulate volume after a hypotonic shock was investigated by a method based on the use of a fluorescent intracellular probe, (2,7-bis(carboxyethyl)-5,6-carboxyfluorescein: BCECF/AM). The fluorescent signal emitted by the trapped dye excited at 450 nm and analyzed by a video-microscopic set was used to measure the relative volume change. At this wavelength the pH indicator, BCECF, was pH-insensitive and the fluorescent signal related only to the intracellular dye concentration and reflected the variations of the cellular volume as calculated from calibration data. We first determined the fading characteristics of the probe. Second, we characterized the mechanism of regulatory volume decrease (RVD) in primary cultures. RVD occurred 1 min after hypotonic shock and was complete by 4 min. This process was blocked in the presence of barium and scorpion venom (Leiurus quinquestriatus Hebraeus). In the same way, lack of chloride in external medium inhibited RVD. The Cl- blocker 5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB) at 1.10(-5) M also blocked the regulation. We conclude that RVD in primary cultures of rabbit proximal convoluted tubules involves the stimulation of a potassium conductance via the Ca2(+)-activated maxi K+ channel and that the accompanying anion is chloride via a conductive pathway and (or) a KCl cotransport

Epithelial colonies in vitro elongate through collective effects

International audienceEpithelial tissues of the developing embryos elongate by different mechanisms, such as neighbor exchange, cell elongation, and oriented cell division. Since autonomous tissue self-organization is influenced by external cues such as morphogen gradients or neighboring tissues, it is difficult to distinguish intrinsic from directed tissue behavior. The mesoscopic processes leading to the different mechanisms remain elusive. Here, we study the spontaneous elongation behavior of spreading circular epithelial colonies in vitro. By quantifying deformation kinematics at multiple scales, we report that global elongation happens primarily due to cell elongations, and its direction correlates with the anisotropy of the average cell elongation. By imposing an external time-periodic stretch, the axis of this global symmetry breaking can be modified and elongation occurs primarily due to orientated neighbor exchange. These different behaviors are confirmed using a vertex model for collective cell behavior, providing a framework for understanding autonomous tissue elongation and its origins

Clinical Pharmacy in Psychiatry: Towards Promoting Clinical Expertise in Psychopharmacology.

Although clinical pharmacy is a discipline that emerged in the 1960s, the question of precisely how pharmacists can play a role in therapeutic optimization remains unanswered. In the field of mental health, psychiatric pharmacists are increasingly involved in medication reconciliation and therapeutic patient education (or psychoeducation) to improve medication management and enhance medication adherence, respectively. However, psychiatric pharmacists must now assume a growing role in team-based models of care and engage in shared expertise in psychopharmacology in order to truly invest in therapeutic optimization of psychotropics. The increased skills in psychopharmacology and expertise in psychotherapeutic drug monitoring can contribute to future strengthening of the partnership between psychiatrists and psychiatric pharmacists. We propose a narrative review of the literature in order to show the relevance of a clinical pharmacist specializing in psychiatry. With this in mind, herein we will address: (i) briefly, the areas considered the basis of the deployment of clinical pharmacy in mental health, with medication reconciliation, therapeutic education of the patient, as well as the growing involvement of clinical pharmacists in the multidisciplinary reflection on pharmacotherapeutic decisions; (ii) in more depth, we present data concerning the use of therapeutic drug monitoring and shared expertise in psychopharmacology between psychiatric pharmacists and psychiatrists. These last two points are currently in full development in France through the deployment of Resource and Expertise Centers in PsychoPharmacology (CREPP in French)

TIP-1 Has PDZ Scaffold Antagonist Activity

PDZ proteins usually contain multiple protein–protein interaction domains and act as molecular scaffolds that are important for the generation and maintenance of cell polarity and cell signaling. Here, we identify and characterize TIP-1 as an atypical PDZ protein that is composed almost entirely of a single PDZ domain and functions as a negative regulator of PDZ-based scaffolding. We found that TIP-1 competes with the basolateral membrane mLin-7/CASK complex for interaction with the potassium channel Kir 2.3 in model renal epithelia. Consequently, polarized plasma membrane expression of Kir 2.3 is disrupted resulting in pronounced endosomal targeting of the channel, similar to the phenotype observed for mutant Kir 2.3 channels lacking the PDZ-binding motif. TIP-1 is ubiquitously expressed, raising the possibility that TIP-1 may play a similar role in regulating the expression of other membrane proteins containing a type I PDZ ligand