![]() ![]() Your lungs get rid of the mucus through coughing. The mucus catches and holds much of the dust, germs, and other unwanted matter that has invaded your lungs. This motion carries MUCUS (sticky phlegm or liquid) upward and out into the throat, where it is either coughed up or swallowed. The bronchial tubes are lined with CILIA (like very small hairs) that have a wave-like motion. The PLEURA are the two membranes that surround each lobe of your lungs and separate the lungs from your chest wall. The RIGHT LUNG is divided into three LOBES, or sections. ![]() The bronchi, in turn, subdivide further into bronchioles. The trachea divides into the two main BRONCHI (tubes), one for each lung. They move a small amount and help the lungs to expand and contract. ![]() The RIBS are bones supporting and protecting your chest cavity. The TRACHEA (windpipe) is the passage leading from your pharynx to the lungs. The ESOPHAGUS is the passage leading from your mouth and throat to your stomach. When moving air is breathed in and out, it creates voice sounds. The LARYNX (voice box) contains your vocal cords. It closes when anything is swallowed that should go into the esophagus and stomach. The EPIGLOTTIS is a flap of tissue that guards the entrance to your trachea. The PHARYNX (throat) collects incoming air from your nose and passes it downward to your trachea (windpipe). If they becomehen infected, they are sometimes removed. Tonsils are not an important part of the germ-fighting system of the body. The TONSILS are lymph nodes in the wall of your pharynx. This system helps your body resist infection by filtering out foreign matter, including germs, and producing cells (lymphocytes) to fight them. The lymph system, consisting of nodes (knots of cells) and connecting vessels, carries fluid throughout the body. When your adenoids interfere with your breathing, they are sometimes removed. The ADENOIDS are overgrown lymph tissue at the top of the throat. The hairs that line the inside wall are part of the air-cleansing system.Īir can also enters through your ORAL CAVITY (mouth), especially if you have a mouth-breathing habit or your nasal passages may be temporarily blocked. The NASAL CAVITY (nose) is the best entrance for outside air into your respiratory system. The sinuses help to regulate the temperature and humidity of air your breathe in, as well as to lighten the bone structure of the head and to give tone to your voice. Small openings connect them to the nasal cavity. The SINUSES are hollow spaces in the bones of your head. Our lungs also take carbon dioxide from our blood and release it into the air when we breathe out. Our lungs remove the oxygen and pass it through our bloodstream, where it's carried off to the tissues and organs that allow us to walk, talk, and move. Further studies will be required in order to establish reliability of repeated recordings and to validate the sensitivity of the system in detecting various lung pathologies.This chart of the RESPIRATORY SYSTEM shows how you breathe.īreathing is the process that brings oxygen in the air into your lungs and moves oxygen and through your body. Conclusions: The VRI device may provide a new perspective in acoustic imaging and quantification of breath sounds by adding aspects of time analysis and quantification of distribution to existing methods. Both healthy and pathological subjects presented some expected characteristics of breath sound distribution. Images and quantifications from the subjects with respiratory illness differed substantially from the images of the healthy subjects. Results: Images and quantifications from recordings of the healthy adults showed distinct patterns for inspiration and expiration. The lung sounds were processed by the VRI software, which incorporates an algorithm to convert breath sounds in the frequency range of 150–250 Hz to a dynamic image and quantitative assessment of breath sound distribution. Methods: Lung sounds were recorded from 5 healthy adults and 14 patients with various respiratory illnesses using VRI. We postulated that the VRI display format would qualitatively and quantitatively reveal breath sound distribution throughout the breathing cycle. Objectives: Our objective was to evaluate a new computer-assisted lung sound imaging system, ‘vibration response imaging’ (VRI), that records and creates a dynamic image of breath sounds. Background: The field of computer-assisted mapping of lung sounds is constantly evolving and several devices have been developed in this field. ![]()
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