The Benefits Of Meta Hunter Method For Vascular Pathology Diagnosis
The spectral-entropic analysis method of the NLS-signal (SEA) has no contraindications and in terms of informativeness is comparable to angiography. It can be used to perform screening in the course of initial examination with a view to revealing early or latent forms of vascular pathology and also as a preliminary method for selecting patients for angiosurgical treatment as according to a number of specialists-angiologists, angiography should only be done for candidates for surgery picked out after preliminary Meta Hunter-investigation. However, this method does not make it possible to assess volume characteristics of the blood current because Meta Hunter does not enable to provide real vessel imaging and hence to measure the vessel. This kind of information may be received through Doppler systems with two-dimensional imaging which offer duplex and triplex scanning (the so-called Doppler chromatic charting).
The Meta Hunter-method was developed in 2006 and can play an essential part in vascular pathology diagnosis. The main advantage of the Meta Hunter-method is that it facilitates search, makes it easy to locate vessels and enables to easily differentiate vessels from non-vascular structures, arteries from veins and very accurately reveal signs of disturbed vascular permeability caused by stenosis or occlusion of the vessel lumen by an atherosclerotic patch or a thrombus which are generally not visible with conventional angiography alone.
In addition, the Meta Hunter-method makes it possible to diagnose portal hypertension, its extent and the permeability of Porto-systemic shunts. NLS is very sensitive in determining the extent of peripancreatic vessel involvement with pancreas cancer which is essentially important for the choice of tactics for surgical treatment. NLS makes it possible to determine affected renal vessels (both veins and arteries), which is very important for the correct choice of hypotensive drug in the case of arterial hypertension.
In identification of Meta Hunter systems’ operating characteristics high-frequency generators have principal meaning. Major part of the most significant achievements in image quality improvement and in extending of our clinical possibilities is related to innovations in development of non-linear generators.
Working frequency ranges of modern generators are within 1.4 – 4.9 GHz, which allows us to research almost all internal organs, anatomical masses and tissues with up to 30 micron resolution. However non-invasive visualization of ultrafine structure of tissue at separate cell organelles and DNA fragments may be hampered. That is why technology of high-frequency non-linear generators manufacturing have changed greatly.