As the equipments of X-rays were improved making them more efficient and insurances were beginning other modalities of images. This way, after the disaster of the Titanic, for example, big efforts developed for obtaining a method that was detecting the obstacles under the sea. The use of the ultrasound of high frequency in maritime problems began in the first world war and the investigations, between 1948 and 1958, for the application of this technology to the diagnosis it was a work as a whole of personnel and military, industrial and medical equipment; nevertheless, it was not until ends of the 70 that achieved the equipments in time royal as we know them nowadays.
The progress of the computer science has and it will continue having a great influence in the radiology. In 1972, the Britisher Hounsfield presents in London the first tomógrafo computarizado, in which the image is not analogical, as in the conventional, but digital radiology. The equipment, which cost a prize him Nobel prize, was developed on the basis of the mathematical works, in 1917, of the Australian Radon and to those of a South African, Cormack, in 1950, on the distribution of the doses of radiotherapy caused by the heterogeneity of the regions of the body.
The tomógrafo measures the similar attenuation of the X-rays they happen across a section of the body from different angles, and then, with the information from these measured, the computer is capable of reconstructing the image of the cut. The most recent contribution of the technology to the diagnosis for the image is the magnetic resonance. His discovery cost the prize them Nobel prize of Physics in 1952 to Bloch and Purcell, but it was not until 1981 that published the studies of the first patients submitted to R.M.'s technology with the espectroscopía, which would allow a precise location of the source of the metabolic live activity.
The great difference of the magnetic resonance with all the other technologies takes root in that instead of radiations a pulse of radio frequency uses and, once finished the pulse, there is caught a sign from the patient, which is processed by an equipment computarizado to reconstruct an image.
martes, 30 de octubre de 2018
Importance of X-ray in the diagnosis
Before November 8, 1895, the medical diagnosis was fulfilling for the interrogation the patient, for the palpation and for the auscultation. The magnitude of the discovery was such that within a few months of the advertisement, already radiographic examinations were realized in the world by medical ends, and one had invented and popularized the fluoroscopy.
Then, in the following decades, there was impressive the impulse with which this speciality developed. Already not only it was a question of being able to see the bones in traumatic pathology or osteoarticular, but the power see, with the evolution of the substances of contrast, other internal structures like the alimentary canal, the urinary system, the blood glasses, etc.
This notable event was deserving in 1901 of the first prize Nobel prize of Physics, and resulted in a change trascedental in the managing of our patients on having contributed the angular stone of a new medical speciality of dizzy development: the radiology, which was allowing to study the patient within, making increasingly the diagnosis of the diseases precise.
Then, in the following decades, there was impressive the impulse with which this speciality developed. Already not only it was a question of being able to see the bones in traumatic pathology or osteoarticular, but the power see, with the evolution of the substances of contrast, other internal structures like the alimentary canal, the urinary system, the blood glasses, etc.
This notable event was deserving in 1901 of the first prize Nobel prize of Physics, and resulted in a change trascedental in the managing of our patients on having contributed the angular stone of a new medical speciality of dizzy development: the radiology, which was allowing to study the patient within, making increasingly the diagnosis of the diseases precise.
Discovery of the Radiology
On November 8, 1895 the physical German Wilhelm Conrad Roentgen discovered the X-rays while it realized experiments with pipes of emptiness and an electrical generator. With the finding of this bundle of light capable of crossing the matter, the medical diagnosis was born for images that the exercise of the medicine improved considerably.
Roentgen realized his first demonstration of the X-rays on January 23, 1896 before Wurzburg's Medical Physical Company. Later in 1901 Franklin received the First Nobel Prize in physics, also decorations of the Royal Company in London, of the Institute in Philadelphia and of the American Academy of Sciences in Columbia's University. It continued working in pursuit of the science and he was the director of the Institute of Physics in the University of Munich. On February 10, 1923 he dies in Munich.
Roentgen realized his first demonstration of the X-rays on January 23, 1896 before Wurzburg's Medical Physical Company. Later in 1901 Franklin received the First Nobel Prize in physics, also decorations of the Royal Company in London, of the Institute in Philadelphia and of the American Academy of Sciences in Columbia's University. It continued working in pursuit of the science and he was the director of the Institute of Physics in the University of Munich. On February 10, 1923 he dies in Munich.
Suscribirse a:
Entradas (Atom)
What does do a radiologist?
The radiologist is a doctor who specializes himself in the diagnosis and the treatment of diseases and injuries by means of the use of techn...
