Latency of the jaw-opening reflex in the premature, preweaning and adolescent pig (hanford strain miniature pig, Sus scrofa)

The jaw-opening (digastric) reflex was elicited by electrical stimulation of oral mucosa in miniature pigs (Sus scrofa) varying in age from 5 days premature to 101 days post-term. The latency of reflex electromyographic activity varied between 12–14 ms in the most immature animals and 9–11 ms in the oldest animals. The very long-latency digastric responses found in the immature young of nesting mammals were not seen in the relatively precocious young of this species.     

Mechanotransduction of fluid stresses governs 3D cell migration

Solid tumors are characterized by high interstitial fluid pressure, which drives fluid efflux from the tumor core. Tumor-associated interstitial flow (IF) at a rate of ∼3 µm/s has been shown to induce cell migration in the upstream direction (rheotaxis). However, the molecular biophysical mechanism that underlies upstream cell polarization and rheotaxis remains unclear. We developed a microfluidic platform to investigate the effects of IF fluid stresses imparted on cells embedded within a collagen type I hydrogel, and we demonstrate that IF stresses result in a transcellular gradient in β1-integrin activation with vinculin, focal adhesion kinase (FAK), FAK^PY397, F actin, and paxillin-dependent protrusion formation localizing to the upstream side of the cell, where matrix adhesions are under maximum tension. This previously unknown mechanism is the result of a force balance between fluid drag on the cell and matrix adhesion tension and is therefore a fundamental, but previously unknown, stimulus for directing cell movement within porous extracellular matrix.Integrins and associated focal adhesion (FA) proteins form a tension-sensitive mechanical link between the extracellular matrix (ECM) and the cytoskeleton, and serve as key components in the signaling cascade by which cells transduce mechanical signals into biological responses (mechanotransduction) (1, 2). Contractile stresses generated by the cell are balanced by tractions at cell–substrate adhesions, and the FA protein vinculin accumulates at regions of high substrate stress (3, 4). The FA protein paxillin colocalizes with vinculin (4) and mediates β1-integrin FA turnover through interaction with FA kinase (FAK) (5). The FAK–paxillin signaling axis recruits vinculin to β1 integrins at regions of high matrix adhesion tension (6), and paxillin—a key mechanosensor (7)—mediates protrusion formation at regions of high stress on 2D substrates (8), and FAK–paxillin–vinculin signaling is required for mechanosensing and durotaxis (9).The tumor microenvironment imparts mechanical and chemical signals on tumor and stromal cells (10), and advanced breast carcinomas are characterized by high interstitial fluid pressure (11), an indicator of poor prognosis (12). This elevated fluid pressure drives interstitial flow (IF) and alters chemical transport within the tumor (13), and IF influences tumor cell migration through the generation of autocrine chemokine gradients (14). Equally important, although not as well understood, is the physical drag imparted on the ECM and constitutive cells (15) by IF, which is analogous to the FA-activating shear stresses generated on endothelial cells by hemodynamic forces (16). With endothelial cells, shear stress can be the dominant mechanical stimulus that induces FAK activation and cytoskeletal remodeling; however, for cells embedded within a porous matrix scaffold, the ratio of the force due to the pressure drop across the cell to the total shear force is inversely proportional to hydrogel permeability (SI Appendix, Eq. S5). In this study, we recapitulate physiologically relevant IF through collagen gel within a microfluidic device. Because the permeability of the collagen I hydrogel used in this study is small (1 × 10⁻¹³ m²), the integrated pressure force is more than 30× the integrated shear force for a 20-μm-diameter cell (17) (SI Appendix, Eq. S5). To maintain static equilibrium, all fluid stresses imparted on the cell must be balanced by tension in matrix adhesions. In 2D, the adhesions balancing the fluid drag on the cell are confined to the basal cell surface, whereas in porous media, such as breast stromal ECM, matrix adhesions are distributed across the full cell surface. Consequently, maintaining static equilibrium requires greater adhesion tension on the upstream side of the cell to balance fluid stresses. From the reference frame of the cell, the effect of IF is mechanically equivalent to applying a net outward force at matrix adhesions on the upstream side of the cell, similar to the net tensile stresses applied by use of optical tweezers to study the molecular mechanisms underlying mechanotransduction (4, 18).Here, we demonstrate that the forces required to balance drag imparted on the cell by IF induce a transcellular gradient in matrix adhesion tension, and the tensile stresses at the upstream side of the cell induce FA reorganization and polarization of FA-plaque proteins including vinculin, paxillin, FAK, FAK^PY397, and α-actinin. FA polarization leads to paxillin-dependent actin localization, the formation of protrusions upstream, and rheotaxis. Consistent with the governing mechanism of durotaxis on 2D substrates, this 3D mechanotransduction occurs through FAK and requires paxillin. Importantly, silencing paxillin does not affect cell migration speed but does attenuate rheotaxis. IF is present in many tissues in vivo (19), and because FA polarization and rheotaxis result from a mechanical force balance, this 3D mechanotransduction mechanism may be fundamental to all cells embedded within porous ECM.     

Why do some trauma patients die while others survive? A matched-pair analysis based on data from Trauma Register DGU®

Purpose: The mortality rate for severely injured patients with the injury severity score (ISS) 16 has decreased in Germany. There is robust evidence that mortality is influenced not only by the acute trauma itself but also by physical health, age and sex. The aim of this study was to identify other possible influences on the mortality of severely injured patients. Methods: In a matched-pair analysis of data from Trauma Register DGU®, non-surviving patients from Germany between 2009 and 2014 with an ISS 16 were compared with surviving matching partners. Matching was performed on the basis of age, sex, physical health, injury pattern, trauma mechanism, conscious state at the scene of the accident based on the Glasgow coma scale, and the presence of shock on arrival at the emergency room. Results: We matched two homogeneous groups, each of which consisted of 657 patients (535 male, average age 37 years). There was no significant difference in the vital parameters at the scene of the accident, the length of the pre-hospital phase, the type of transport (ground or air), pre-hospital fluid management and amounts, ISS, initial care level, the length of the emergency room stay, the care received at night or from on-call personnel during the weekend, the use of abdominal sonographic imaging, the type of X-ray imaging used, and the percentage of patients who developed sepsis. We found a significant difference in the new injury severity score, the frequency of multi-organ failure, hemoglobine at admission, base excess and international normalized ratio in the emergency room, the type of accident (fall or road traffic accident), the pre-hospital intubation rate, reanimation, in-hospital fluid management, the frequency of transfusion, tomography (whole-body computed tomography), and the necessity of emergency intervention. Conclusion: Previously postulated factors such as the level of care and the length of the emergency room stay did not appear to have a significant influence in this study. Further studies should be conducted to analyse the identified factors with a view to optimising the treatment of severely injured patients. Our study shows that there are significant factors that can predict or influence the mortality of severely injured patients.     

Molecular diagnosis of primary mediastinal B cell lymphoma identifies a clinically favorable subgroup of diffuse large B cell lymphoma related to Hodgkin lymphoma

Using current diagnostic criteria, primary mediastinal B cell lymphoma (PMBL) cannot be distinguished from other types of diffuse large B cell lymphoma (DLBCL) reliably. We used gene expression profiling to develop a more precise molecular diagnosis of PMBL. PMBL patients were considerably younger than other DLBCL patients, and their lymphomas frequently involved other thoracic structures but not extrathoracic sites typical of other DLBCLs. PMBL patients had a relatively favorable clinical outcome, with a 5-yr survival rate of 64% compared with 46% for other DLBCL patients. Gene expression profiling strongly supported a relationship between PMBL and Hodgkin lymphoma: over one third of the genes that were more highly expressed in PMBL than in other DLBCLs were also characteristically expressed in Hodgkin lymphoma cells. PDL2, which encodes a regulator of T cell activation, was the gene that best discriminated PMBL from other DLBCLs and was also highly expressed in Hodgkin lymphoma cells. The genomic loci for PDL2 and several neighboring genes were amplified in over half of the PMBLs and in Hodgkin lymphoma cell lines. The molecular diagnosis of PMBL should significantly aid in the development of therapies tailored to this clinically and pathogenetically distinctive subgroup of DLBCL.     

Does increasing ovum donor compensation lead to differences in donor characteristics?

OBJECTIVE: To evaluate the effects of a compensation increase for anonymous ovum donors on demographic and social characteristics. DESIGN: Retrospective analysis. SETTING: The Mount Sinai Medical Center Ovum Donation Program. PATIENT(S): All program applicants for 2 years preceding (group I, n = 2,934) and 1 year following an increase in donor compensation (group II, n = 1,114; total N = 4,048). INTERVENTION(S): Compensation was increased from $2,500 to $5,000 per cycle. MAIN OUTCOME MEASURE(S): Demographic and social characteristics of applicants and donors. RESULT(S): More group II applicants (65.7%) than group I applicants (49.2%) returned an initial biographical questionnaire. Compensation level did not affect the percentage rejected at any stage in the application process or ultimately selected. There were no differences in donors in age, marital status, education, race, religion, or psychological profile. Group II donors had more previous pregnancies (group II mean = 1.2, group I mean = 0.6) and previous abortions (group II mean = 0.8, group I mean = 0.4). CONCLUSION(S): Increasing compensation may result in a higher percentage of potential donors completing an initial questionnaire but does not alter the demographic and social characteristics of selected donors. Adherence to a rigorous applicant screening ensures that donor characteristics remain independent from compensation.     

VIRUSES OF POLIOMYELITIS : AN IMMUNOLOGICAL COMPARISON OF SIX STRAINS

Qualitative immunological differences exist between early passage strains or so called human strains of the virus of poliomyelitis. These differences show a relationship to the epidemic source of the virus and are exemplified in this study by 4 strains isolated in different years during an eastern and western epidemic of poliomyelitis.