The Effect of a Portable Electrical Muscle Stimulation on Brain-Derived Neurotrophic Factor in Elderly People: Three Case Studies.

Brain-derived neurotrophic factor (BDNF), which plays an important role in cognitive and nerve function, is released from skeletal muscle cells into the blood by muscle contractions and/or electrical muscle stimulation (EMS). However, the influence of EMS administered by a portable device on BDNF is unclear. The purpose of this case report was to quantify the influence of EMS administered by a portable device on BDNF and physical function.

Characteristics of Benign and Malignant Bone Tumors Registered in the Hiroshima Tumor Tissue Registry, 1973-2012.

Background: Reported information on the characteristics of benign bone tumors is disjointed, and the long-term trends in the occurrence of malignant bone tumors by histological type have not been reported in Japan. Our aim was to describe the characteristics of both benign and malignant bone tumors as described in cases registered in the Hiroshima Tumor Tissue Registry from 1973 to 2012.

Methods: Cases were identified with the International Classification of Diseases for Oncology (ICD-O-3) topography code C40-C41 (bones, joints, and articular cartilage), and histological types were classified according to the World Health Organization 2013 system.

Scientific assessment of endoscopic surgical skills.

Recently, significant attention has been focused on training and education for safe endoscopic surgery. A new assessment method, the Hiroshima University Endoscopic Surgical Assessment Device (HUESAD), has been designed at Hiroshima University to evaluate the smoothness of the movement of endoscopic instruments from velocity. Experts (with experience in performing more than 100 laparoscopic surgeries) and novices (with no experience in performing laparoscopic surgery) were recruited for this study.

Objective assessment of endoscopic surgical skills by analyzing direction-dependent dexterity using the Hiroshima University Endoscopic Surgical Assessment Device (HUESAD).

Purpose: We evaluated our system of objectively assessing endoscopic surgical skills.

Methods: We developed the Hiroshima University Endoscopic Surgical Assessment Device (HUESAD), which records the movement of the tip of an endoscopic instrument precisely. The orbits of experienced surgeons (expert group) and those of medical students (novice group) were evaluated by measuring the deviation from the ideal course on horizontal and vertical planes.

Computer simulation of the gap-tripole ion trap with linear injection, 3D ion accumulation, and versatile packet ejection.

The behavior of a completely new ion trap is shown with SIMION 7.0 simulations. The simulated trap, which was a mix of a linear and a 3D trap, was made by axially setting two ion guides with a gap between them.