Alcohol is a recognized teratogen that affects various aspects of fetal development. Tissue that is particularly susceptible to its teratogenicity is neuronal tissue. The effect of prenatal alcohol exposure (PAE) on the central nervous system has been extensively studied, yet the knowledge on the influence of PAE on the autonomic nervous system is scarce. The purpose of this article is to review the current state of knowledge about the impact of PAE on the autonomic nervous system. Studies conducted on the PAE animal model have shown that prenatal alcohol exposure is associated with significant alterations in the autonomic nervous system, but the mechanisms and consequences are not yet clearly defined. It was established that PAE causes decreased heart rate variability (HRV) in fetal cardiotocography. Several studies have revealed that later, in infancy and childhood, reduced parasympathetic activity with or without compensating sympathetic activity is observed. This may result in behavioral and attention disorders, as well as an increased predisposition to sudden infant death syndrome. Both animal and human studies indicate that the relationship between PAE and autonomic dysfunction exists, however large, well-designed, prospective studies are needed to confirm the causal relationship and characterize the nature of the observed changes.
The anatomy of the human temporal bone is complex and, therefore, poses unique challenges for students. Furthermore, temporal bones are frequently damaged from handling in educational settings due to their inherent fragility. This report details the production of a durable physical replica of the adult human temporal bone, manufactured using 3D printing technology. The physical replica was printed from a highly accurate virtual 3D model generated from CT scans of an isolated temporal bone. Both the virtual and physical 3D models accurately reproduced the surface anatomy of the temporal bone. Therefore, virtual and physical 3D models of the temporal bone can be used for educational purposes in order to supplant the use of damaged or otherwise fragile human temporal bones.
B a c k g r o u n d: Regulation of energy balance in patients with short bowel syndrome (SBS) is disturbed due to lack of significant part of the intestine. The goal of the research was to analyse the plasma concentrations of selected regulatory peptides — ghrelin, visfatin, and irisin — in children with SBS.
M e t h o d s: To achieve this aim we recruited study group consisted of 28 children with SBS fed parenterally for at least two weeks, mean age 14 ± 5 months and mean standardised body mass index (SDS-BMI) –1.26 ± 0.84. The control group was represented 25 healthy children of matching age and SDS-BMI. The plasma concentrations of peptides (ghrelin, visfatin, and irisin) were determined using immunoassays, and liver enzymes (AST, ALT, GGT) using an auto-analyser.
R e s u l t s: We observed lower visfatin and ghrelin levels in the study group as compared to controls (both P <0.0001). The lowest total ghrelin concentration was observed in SBS children after ileal resection (P = 0.0016). Irisin concentration did not differ between the groups. Most of the SBS children showed elevated liver enzymes activities at the first measurement and during one-year follow-up.
C o n c l u s i o n: Our findings showed that plasma ghrelin and visfatin themselves may play a role in the course of SBS, while a lack of disturbance in irisin might imply that it is neither playing any role nor it is affected by SBS itself.
I n t r o d u c t i o n: Fecal calprotectin (FC) rises significantly in intestinal inflammation accompanied by neutrophil activation — such as Clostridium diffi cile infection (CDI). The aim of the study was to evaluate the benefi t of FC testing in assessing the severity of CDI.
Ma t e r i a l s a n d M e t h o d s: The study group included 76 patients with CDI hospitalized in the Jagiellonian University Hospital in Krakow from July 2017 till January 2018. FC levels were measured using an EIA (Enzyme Immunoassay). Demographic, clinical information and blood tests were recorded using standardized data collection forms. The selection of patients into non-severe and severe groups was carried out in accordance with the ESCMID criteria (European Society of Clinical Microbiology and Infectious Diseases) and some modifications to those criteria were proposed.
R e s u l t s: The studied population included 76 patients (39 men and 37 women) with CDI aged from 24 to 98 years (mean: 72). Median calprotectin level was 739 (Q25–Q75: 612–799 μg/g), characteristic of patients with colitis. A statistically signifi cant diff erence in FC concentration in patients with severe vs non-severe CDI was observed (severe — 770 vs non-severe — 659 μg/g, p = 0.009). FC directly correlated with platelets level; however, no correlation between FC level and the blood parameters prognostic for CDI (leukocyte, neutrophil count, albumin, creatinine levels) was found.
C o n c l u s i o n: FC level is an indication of ongoing intestinal inflammation in CDI patients. FC level significantly correlated with CDI severity, which demonstrates that FC could serve as a predictive marker for assessing CDI severity.
Outbreaks of typhoid fever for centuries decimated armies, cities and large hosts of people. Discovery of an agent causing such a grave disease became one of the most important achievements of bacteriology — science, which had experienced rapid development in the last quarter of the 19th century and changed the course of our civilization.
The article deals with the discovery of Tadeusz Browicz, Polish anatomopathologist, who in 1874 reported about rod-shaped “parasites” in viscera of typhoid fever victim. His achievement became shaded by the later discoveries of Eberth, Klebs and Gaffky, but as authors stated below, Browicz should be recognized with mentioned scientists as a co-discoverer of the typhoid fever bacillus.
The aim of the study was to assess the course of posterior interosseous nerve in the wrist capsule in the transparent method of nerve staining.
M a t e r i a l a n d M e t h o d s: Thirty dorsal wrist capsules were collected bilaterally from 15 donors (thirty capsules) within 12 hours of death. By the dorsal incision the capsules were collected in the same manner. The specimens were stained according to the protocol of modified Sihler’s staining technique. The preserved capsules were analysed under 8–16× magnification of optical microscope for the presence of major posterior interosseous nerve trunks, their major and minor branches, and nerve connections.
R e s u l t s: Three main types of nerve course were identified within the joint capsule. Type I — the most common, with the presence of a single trunk with the excursion of the first main branch on the radial side, two main branches on the ulnar side, the presence of the prevailing number of small branches on the radial side and the presence of 3–4 branches extending beyond the level of the carpo-metacarpal joints. Type II with the presence of two main nerve trunks, running almost in parallel with the first main branch on the radial side, two main branches on the ulnar side with presence of a predominant number of small branches on the radial side and the presence of 3–4 branches running beyond the level of carpo-metacarpal joints. Type III (least often) with the presence of crossed main nerve trunks.
C o n c l u s i o n: The modified Sihler’s staining technique allows for transparent visibility of the nerves innervation the dorsal wrist capsule. However does not allow accurate assessment as histological examination, especially in evaluation of nerve endings, but it gives a significantly larger area of nerve observation.