The Superficial Venous System: Art and Anatomy in Michelangelo’s Works

The Renaissance period was a laboratory of extensive scientific and artistic production that also included the study of the human body for both medical and artistic purpose. The artists of this period, especially those of the Italian schools, were particularly fascinated by human dissection and began to attend or perform public human dissections or public lessons of anatomy. They paid particular attention on superficial anatomy, especially on muscles, to understand body dynamics, but only a few of them focused on other neglected subcutaneous structures (veins, nerves, lymph nodes). Michelangelo Buonarroti (1475-1564), one of the most brilliant artists in Italian High Renaissance, had a wide knowledge in human anatomy coming from his experience in public dissection, when he joined to the court of Lorenzo de’ Medici, and later in life thanks to the friendship with the anatomist Realdo Colombo. The present article aimed to examine Michelangelo’s works, following a chronological order, to find the presence of subcutaneous veins. When represented, the anatomical correctness of the superficial venous network has been evaluated in marble sculptures and frescoes of the Sistine Chapel. Interesting anatomical considerations arose from the analysis of his famous works, in particular Pietà and David. Michelangelo paid a particular attention to anatomical dissection, this research being finalized to achieve detailed information for artistic purposes. The representation of distended superficial veins also contributed to transmit additional physical effort and emotional states in his masterpieces

Bilateral dimorphism of Loewenthal's gland in young male albino rats: an ultrastructural investigation

This study represents a further contribution to our knowledge about the structure of Loewenthal's gland. There are several divergences in the available literature on the topic, concerning both the histological and ultrastructural findings. However, in these studies, the authors did not take into account the potential influence of a putative side-dependent dimorphism previously reported by us. We therefore carried out histological and electronmicroscopic observations specifically aimed at evaluating the importance of the gland shape for its structure. In particular, in male albino rats aged 70-120 days, we compared the structure of the left and right glands. Depending on the side undergoing morphological investigation, we observed differences in the acini, cells, nuclei, endoplasmic reticulum, Golgi apparatus and granular content. Apart from slight individual differences, we found that structural variations were most frequently observed in glands displaying a more evident macroscopic side-specific dimorphism. Our findings demonstrate that several conflicting data in the literature dealing with the structure of Loewenthal's glands might be explained by the morphofunctional side-dependent dimorphism of the organ

Silicone-coated non-woven polyester dressing enhances reepithelialisation in a sheep model of dermal wounds

Negative-pressure wound therapy (NPWT) also known as V.A.C. (Vacuum-assisted closure), is widely used to manage various type of wounds and accelerate healing. NPWT has so far been delivered mainly via opencell polyurethane (PU) foam or medical gauze. In this study an experimental setup of sheep wound model was used to evaluate, under NPWT conditions, the performance of a silicone-coated non-woven polyester (N-WPE) compared with PU foam and cotton hydrophilic gauze, used as reference materials. Animals were anesthetized with spontaneous breathing to create three 3 9 3 cm skin defects bilaterally; each animal received three different samples on each side (n = 6 in each experimental group) and was subjected to negative and continuous 125 mmHg pressure up to 16 days. Wound conditions after 1, 8 and 16 days of treatment with the wound dressings were evaluated based on gross and histological appearances. Skin defects treated with the silicone-coated N-WPE showed a significant decrease in wound size, an increase of re-epithelialization, collagen deposition and wound neovascularisation, and a minimal stickiness to the wound tissue, in comparison with gauze and PU foam. Taken all together these findings indicate that the silicone-coated N-WPE dressing enhances wound healing since stimulates higher granulation tissue formation and causes minor tissue trauma during dressing changes

Effects of Loud Noise Exposure on DNA Integrity in Rat Adrenal Gland

Loud noise is generally considered an environmental stressor causing negative effects on acoustic, cardiovascular, nervous, and endocrine systems. In this study, we investigated the effects of noise exposure on DNA integrity in rat adrenal gland evaluated by the comet assay. The exposure to loud noise (100 dBA) for 12 hr caused a significant increase of DNA damage in the adrenal gland. Genetic alterations did not decrease 24 hr after the cessation of the stimulus. We hypothesize that an imbalance of redox cell status is responsible for the induction and persistence of noise-induced cellular damage

Effects of Loud Noise Exposure on DNA Integrity in Rat Adrenal Gland

Loud noise is generally considered an environmental stressor causing negative effects on acoustic, cardiovascular, nervous, and endocrine systems. In this study, we investigated the effects of noise exposure on DNA integrity in rat adrenal gland evaluated by the comet assay. The exposure to loud noise (100 dBA) for 12 hr caused a significant increase of DNA damage in the adrenal gland. Genetic alterations did not decrease 24 hr after the cessation of the stimulus. We hypothesize that an imbalance of redox cell status is responsible for the induction and persistence of noise-induced cellular damage

High-intensity exercise training induces morphological and biochemical changes in skeletal muscles

IN THE PRESENT STUDY WE INVESTIGATED THE EFFECT OF TWO DIFFERENT EXERCISE PROTOCOLS ON FIBRE COMPOSITION AND METABOLISM OF TWO SPECIFIC MUSCLES OF MICE: the quadriceps and the gastrocnemius. Mice were run daily on a motorized treadmill, at a velocity corresponding to 60% or 90% of the maximal running velocity. Blood lactate and body weight were measured during exercise training. We found that at the end of training the body weight significantly increased in high-intensity exercise mice compared to the control group (P=0.0268), whereas it decreased in low-intensity exercise mice compared to controls (P=0.30). In contrast, the food intake was greater in both trained mice compared to controls (P < 0.0001 and P < 0.0001 for low-intensity and high-intensity exercise mice, respectively). These effects were accompanied by a progressive reduction in blood lactate levels at the end of training in both the exercised mice compared with controls (P=0.03 and P < 0.0001 for low-intensity and high-intensity exercise mice, respectively); in particular, blood lactate levels after high-intensity exercise were significantly lower than those measured in low-intensity exercise mice (P=0.0044). Immunoblotting analysis demonstrated that high-intensity exercise training produced a significant increase in the expression of mitochondrial enzymes contained within gastrocnemius and quadriceps muscles. These changes were associated with an increase in the amount of slow fibres in both these muscles of high-intensity exercise mice, as revealed by the counts of slow fibres stained with specific antibodies (P < 0.0001 for the gastrocnemius; P=0.0002 for the quadriceps). Our results demonstrate that high-intensity exercise, in addition to metabolic changes consisting of a decrease in blood lactate and body weight, induces an increase in the mitochondrial enzymes and slow fibres in different skeletal muscles of mice, which indicates an exercise-induced increase in the aerobic metabolism

An Original Single-Body Synthetic Heart Valve: Feasibility Study And Prototype Realization

The research for durable, non-thrombogenic heart valve prostheses able to overcome the limits of biological and mechanical ones, promoted the development of synthetic valves. Their success has been hampered by lack of durability, due to calcification and thromboembolic complications. The aim of this work was to develop a prototype of a new elastomeric biocompatible valve, durable and free from calcification

Morphological effects in the mouse myocardium after methylenedioxymethamphetamine administration combined with loud noise exposure

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