The foot, Anatomy notes

The foot has 28 bones, 30 joints, and more than 100 muscles, ligaments, and tendons. These structures work together to carry out two main functions: weight-bearing and propulsion. Plus, the foot must be flexible to adapt to uneven surfaces and remain stable. In this article, we briefly illustrate the anatomy of the foot and its various structures

The effect of Gcmaf complexed with oleic acid on multiple myeloma cultures

Abstract: Deglycosylated vitamin D-binding protein-derived macrophage-activating factor (GcMAF) is known to be a strong immune stimulatory natural molecule. Data in literature demonstrate that GcMAF has a direct role in decreasing cell proliferation of different cancer cell lines. In this study we evaluate the direct effect of GcMAF complexed with oleic acid (OA-GcMAF) on human multiple myeloma cells (KMS-12- BM), as well as the effect on the same cell line of human macrophages (CRL9853) previously activated by OA-GcMAF. Cell viability and living cell number were evaluated respectively by tetrazolium dye cell viability assay and by Trypan blue staining. Interactions between activated macrophages and myeloma cells were studied by time lapse photography. Our results show that OA-GcMAF decreases the cell viability of KMS-12-BM with a dose-dependent pathway. Furthermore OA-GcMAF activates human macrophages, which in turn phagocytise myeloma cancer cells. OA-GcMAF confirms its double effect on cancer cells: a direct inhibition of their viability and, at the same time, an efficient macrophage activation leading to a significant depletion of cancer cell population. Introduction: In recent years the interest of vitamin D-binding protein-derived macrophage-activating factor (GcMAF) as a potent immunotherapeutic agent has increased. The GcMAF has been shown to be effective in stimulating murine macrophages in vitro to phagocytose human breast carcinoma cultures (1, 2), as well as inhibiting the growth of prostate cancer cells (3). It has also been the agent that has been referenced as reducing tumour burden in several clinical approaches (4, 5). In previous studies GcMAF has been used to stimulate Raw 264.7 cells (murine macrophage cell line) that were observed in vitro to phagacytose MCF-7 cells (human breast carcinoma). In this study we demonstrate the effect of GcMAF stabilized with oleic acid (OA-GcMAF) directly on KMS-12-BM multiple myeloma cells and on co-culture of stimulated human macrophages (CRL9853) and KMS-12-BM. Materials and Methods: Cell lines: KMS-12-BM: human multiple myeloma cell line was purchased from DSMZ (German Collection of Microorganisms and Cell Cultures, Braunschweig, Germany) and cultured in RPMI 1640 supplemented with 10% FBS and 2mM L-Glutamine (Life Technologies, Paisley, UK). Cultures were passaged every 3-4 days. CRL9853: human spleen macrophage was purchased from ATCC (American Type Culture Collection, Teddington, UK) and routinely cultured in IMDM supplemented with 10% FBS and 2mM L-Glutamine (Life Technologies). Cultures were passaged every 3-4 days. Prior to assay, CRL9853 cells were activated culturing them for 72h in the presence of OAGcMAF at a concentration 100ng/ml in complete medium. Stimuli: OA-GcMAF, commercially available, was prepared at Immuno Biotech Ltd. (Guernsey, Channel Island) with a proprietary procedure previously described (6). Cell viability assay: Cell viability was evaluated by the reduction of a tetrazolium salt (WST-8) as an index of cell dehydrogenases’ activity. KMS-12-BM cells were seeded into a 96-well plate at a density of 3x104 cells/well in their appropriate starvation medium (without FBS). After incubation for 24h the cell line was treated for 24h with the following different concentrations of OA-GcMAF ([8-80-800 pM). At the end of the treatment, the medium was replaced with 100μl of fresh starvation medium plus 10μl of WST-8. The 96-well plate was incubated for 3h at 37°C and the optical density (O.D.) was directly measured at A450nm by Multiscan FC photometer (ThermoScientific, Milano, Italy). Cell counting – Trypan blue assay: To corroborate the results obtained by cell viability assay, a viable cell count was performed. Briefly, KMS-12-BM cells were plated into a 6-well plate at a density of 2x105 cells/well in starvation medium. After 24h incubation, human multiple myeloma cells were treated with OA-GcMAF at the increasing concentrations (8-80-800 pM) for 24h. At the end of the treatment, a volume of cell suspension was collected and the viable cell number was counted by Trypan Blue staining. Video-time lapse photography: KMS-12-BM cells were seeded into a 24-well plate at a density of 1x106 cells/well with a 1ml volume. The cells were allowed to settle for a minimum of 2h prior to the addition of the OA-GcMAF-activated CRL9853 macrophages. The staging mat was set at a temperature of 37°C and allowed to equilibrate prior to placement of the 24-well plate. The OA-GcMAF-activated CRL9853 macrophages were added to a final concentration of 5x105 cells per well in 1ml. HEPES (Fisher Scientific, Loughborough, UK) was added to each well to provide a final concentration of 25mM to stabilize the culture pH. Once activated macrophages and the HEPES were added, the 24-well plate was observed microscopically and an image selected. An initial frame was taken and a timelapse film initiated. A frame was taken every 3 minutes until filming was stopped. Results: Cell viability assay: Cell viability (Figure 1), evaluated both by tetrazolium dye cell assay (A) and by Trypan blue staining (B), decreased when KMS-12-BM cells were treated with increasing concentrations of OAGcMAF. In particular, when cells were treated with OAGcMAF (800 pM) a significant reduction (p<0.01) in cell viability was observed in comparison to the untreated control cells. Discussion: It has been shown that Gc-MAF activates Raw 264.7 murine macrophages to phagocytose and destroy MCF-7 human breast carcinoma cells (1). An identical effect has been recorded for the first time with the stimulation of human macrophages CRL9853 on KMS-12-BM cell line . The OA-GcMAF-stimulated human macrophages seek out surround and phagocytose the myeloma cell lines destroying them. This demonstrates that the CRL9853 behave as postulated against KMS-12- BM cell line. In addition the effect of increased cell death in the presence of OA-GcMAF alone as indicated by direct evaluation of viable cell counts and viability assay also provides supports to the previous data generated (1). This study provides some inferred evidence to support the in vivo clinical data that has recently been published (6) providing some insight into the method of potential tumour removal by stimulated macrophages. In conclusion OA-GcMAF has demonstrated two major effects: a direct decrease of KMS-12- BM cell viability and an efficient activation of human macrophages, which become able to phagocytose and destroy the myeloma cells. The studies will be expanded further to encompass additional cancer cell lines

Aortic arch branching pattern variation: its incidence on a 20.030 cases review.

Aim of the study: the main objective of this work was to study the frequency of variation of the aortic arch branching pattern in a wide and varied population. Introduction: Variations in the branching pattern of the aortic arch are clinically relevant because of the direct influence that their presence can have on the success of cardio-vascular procedures, neck or thorax surgery, in trauma management or in intensive care unit patient’s. In most cases these anatomical variations are asymptomatic and considered clinically benign, but some particular aortic branching patterns had been associated with surgical complications or with vascular diseases in medical non surgical patients. Methods: this paper analyzes the aortic arch branching patterns of 20.030 cases reported by 40 anatomical or radiological studies. Results: 84,52% of the studied population has a three branches pattern and 14,65% has a two branches pattern. The four primary arteries arising directly from the aortic arch were seen in 0,81% of the cases and only 0,02% had them all arising from a common trunk

New therapeutic applications of ultrasounds: a preliminary study

Ultrasound is well known for its imaging role in medicine. Recently, a new role of non-thermal ultrasound has been investigated concerning the central nervous system. Effectively, ultrasound treatment is able to modulate brain functions in humans (1), as well as the opening of the blood brain barrier in primates and rats, with the absence of tissue damage (2). Furthermore, an in vitro study has demonstrated the role of focused ultrasound in regulating neuronal sprouting in human neurons (3). The aim of this study is to evaluate, for the very first time, the effects of diagnostic ultrasound (12 MHz, 1 cycle) on murine microglial cell line (BV-2). For this purpose, BV-2 cells were stimulated with ultrasound (12 MHz, 1 cycle) for 3 minutes. Cell viability assay and western blotting, morphological, and immunofluorescence analyses were performed. Our results show that ultrasound stimulation did not affect cell viability. Conversely, western blotting analysis, as well as immunofluorescence staining, revealed a decrease in B7-2 (CD86) expression, and this latter feature was confirmed by morphological analysis, highlighting an increase in resting-ramified cells, with the capability to survey the surrounding area. Taken together, these results demonstrate that ultrasound safely affect the central nervous system in normal (physiological) condition. Furthermore, ultrasound own the features of temporary change the morpho-functional state of microglial cells, reinforcing their new role in the field of neuroscience

Therapeutic effects of highly purified de-glycosylated GcMAF in the immunotherapy of patients with chronic diseases.

The de-Glycosylated vitamin D binding protein is a powerful Macrophage Activating Factor (GcMAF) that shows multiple biological effects that could be exploited in the immunotherapy of tumours, viral infections and autism. Here we report the observation of a series of clinical cases describing the results obtained administering highly purified GcMAF to patients with diverse types of chronic diseases. These are heterogeneous and refer to patients with different types of diseases at different stages. In some cases, patients underwent other complementary treatments such as stem cell infusion or administration of supplements. In patients harbouring tumours, GcMAF treatment was initiated at late stages of tumour progression. Therefore, since this is an open-label, non-controlled, retrospective analysis, caution must be employed when ascribing cause and effect to any treatment outcome. However, the response to GcMAF was robust and certain trends emerge evident. In all cases (n = 7), GcMAF subcutaneous injections were associated with improvement of clinical conditions. No adverse side effects were reported. The observation reported here confirm and extend the results previously presented by several Authors and open the way to further trials aimed at assessing the precise role and indications for GcMAF in the immunotherapy of chronic diseases