[(Un)ergonomic working conditions for a paramedic in a medical ambulance]. / (Nie)ergonomiczne warunki pracy ratownika w ambulansie medycznym.

BACKGROUND: The work of a paramedic, is characterised by a high risk of injury. Ergonomic, psychological, and biomechanical factors are considered risk factors in the profession of emergency medical technicians. Ensuring ergonomic working conditions for emergency medical technicians is a priority and requires a thorough assessment both in the design process and during the operation of the ambulance, to provide a diagnosis of the current state and present necessary recommendations for modernization. Identifying stressors will enable the design of an ergonomic interior for the ambulance, ensuring comfort and reliability for members of the emergency medical team, thereby reducing the risk of injuries. MATERIAL AND METHODS: The authors of this article developed a comprehensive methodology for assessing the nuisances occurring during the paramedic's work, which required specialised preliminary research. The research included the measurement and analysis of the paramedic's movement kinematics during typical medical procedures, both at a standstill and while driving the ambulance. For the analysis of motion kinematics, a non-invasive method called myoMotion was employed, and the study was conducted in a Mercedes ambulance. RESULTS: This article contains preliminary results on the evaluation of movement kinematics. These demonstrated the necessity for the paramedic to adopt forced positions when performing medical procedures. The ranges of movement of the individual body parts of the paramedic deviated from accepted norms, resulting in musculoskeletal overload. CONCLUSIONS: The acquired knowledge forms the basis for a detailed analysis of tasks performed within each procedure from the perspective of the spatial structure of the ambulance, the arrangement of equipment and medical supplies, their accessibility during work, and the organization of work within the ambulance. Additional identification of musculoskeletal system stress, its sources, and the formulation of modification recommendations for the ambulance interior will enable ensuring the comfort and reliability of the work for emergency medical teams, thereby reducing the risk of injuries in the workplace. Med Pr Work Health Saf. 2024;75(1):31-44.

Physical Activity and Ecological Means of Transport-Functional Assessment Methodology.

Medical developments have led to lower mortality rates but have increased the proportion of people with disabilities or mobility dysfunctions. A higher level of awareness of the general need to perform physical activity, in different spheres of life and at any age, is necessary. A device produced in response to the growing need of supporting active participation in activities of daily life is the Torqway. The aim of this research conducted at the Faculty of Transport, Warsaw University of Technology, was to evaluate the kinematic of users' upper and lower body muscles motion while riding the tested device. The research was carried out using the MyoMotion system on a stand designed for the purpose of the experiment. Analysis of the results showed a high level of activity in the muscles of the upper limbs, demonstrating that the device can be used to train muscle strength and mass, prevent muscle atrophy, improve the elasticity of periarticular soft tissues and improve the action of the muscle pump (increasing blood flow to the muscles and, with it, the flow of oxygen and nutrients, which promotes the development and subsequent regeneration of muscles). The device can not only serve as a form of recreation but also be used to promote convalescence.

The Importance of the Human Factor in Safety for the Transport of Dangerous Goods.

This article discusses the issues related to the safety for the transport of dangerous goods by road. Research on accidents in transport unambiguously points to the human factor, which is the most responsible for causing accidents. Determining the causes of driver unreliability in the human-vehicle-environment system requires thorough research. Unfortunately, in this case, experimental research with human involvement is limited in scope. This leaves modeling and simulation of the behavior of the human factor, i.e., the driver transporting dangerous goods. The human being, because of its complexity, is a challenging element to parameterize. The literature presents various attempts to model human actions. Herein, the authors used heuristic methods, specifically fuzzy set techniques, to build a human factor model. In these models, human actions were specified using a verbal or linguistic description. The specificity of the fuzzy sets allowed for "naturally" limiting the "precision" in describing human behavior. The model was built based on the author's questionnaire and expert research, based on which individual features were selected. Then, the traits were assigned appropriate states. The output parameter of the model was λL-the intensity of human error. The obtained values of the intensity of the accident caused by the driver's error were implemented into the author's method of risk assessment. They constituted one of the factors determining the probability of an accident in the transport of dangerous goods, which allowed for determining the optimal route for the transport of these goods characterized by the lowest risk of an undesirable event on the route. The article presents the model's assumptions, structure, and the features included in the model, all of which have the most significant influence on shaping the intensity of human error. The results of the simulation studies showed a diversified effect of the analyzed characteristics on the driver's efficiency.

Road ambulances: working conditions of paramedics - pilot studies.

OBJECTIVES: The article presents the results of selected pilot studies conducted in medical ambulances. Their aim was to determine the working conditions and identify troublesome factors accompanying the performance of basic medical procedures by rescue teams. MATERIAL AND METHODS: The study of working conditions was carried out in Mercedes-Benz ambulances, type S and P. Fifty-one paramedics of the Emergency Medical Rescue Service in Siedlce took part in the research. The questionnaire expert survey method and the direct observation method were used. RESULTS: As a result of the applied research methods, knowledge was gained on the irregularities and difficulties that occur at the workplace of a paramedic, i.e., in an ambulance, including the lack of access to essential elements of medical equipment and their different location inside the vehicle, and the diversity of solutions for the spatial structure of ambulances, which all cause difficulties at work. Research has shown that paramedics take, on average, 33 min to familiarize themselves with the location of equipment in an ambulance other than the one in which they are usually on duty. There was no correlation between the lifeguard's length of service and the time necessary for getting acquainted with the equipment, which was studied using Pearson's correlation coefficient. In the study, rescuers also pointed to musculoskeletal ailments, mainly spinal pains resulting from taking forced positions during medical activities in an ambulance. CONCLUSIONS: The results obtained constitute the basis for the author's methodology of complex research aimed at defining the ergonomic recommendations necessary in the modification process of the operated medical fleet. The next step will be to formulate uniform guidelines for the construction of medical compartments of ambulances, the application of which will lead to the unification of their spatial structure regardless of the vehicle brand. Int J Occup Med Environ Health. 2020;33(1):91-105.