Non-invasive hemogram analyzer AMP
Non-invasive hemogram analyzer allows making a complex test of the state of patient's organism during 3-12 minutes.
It determines 117 biochemical, hemodynamic and immunological parameters of an organism such as blood formula (hemoglobin, erythrocytes, leukocytes etc.), electrolyte metabolism (level of Ca, Mg, Na, K etc.), the system of blood coagulation, enzyme system (ALT, AST, amylase, bilirubin) as well as blood glucose, cholesterol, lipoproteins.. The measuring is made with 5 microprocessors; they are put on the patient's body.
AMP corresponds portable, compact, noninvasive biochemical laboratory. So, later a doctor can make complex express-analysis of all patient's organism.
AMP analyzer allows carry out prophylactic medical examination for a lot of people very quickly, without considerable expenses. Besides all findings will be saved in database for further statistical treatment.
Noninvasive hemogram analyzer AMP has no analogs in the world.
How does the AMP Hemogram analyzer work?
Function of the AMP analyzer is based on interrelation of work of the blood circulation system of insides with heat of chemical reaction of Nitrogen, Oxygen, Hydrogen and Carbon. Changes of temperature determine the activity of chemical elements through interrelation of Nitrogen compounds and Hydrogen bounding furthermore, through interrelation of Oxygen melting factor changes.
The goal of the examinations is determination of changes in composition of blood shaped elements and during the end of chemical reactions that have interconnects with Oxygen consumption and Carbon dioxide exhaust regulated by organism, having influence to level of protein and lipids in cell membranes.
Taking into consideration, that the AMP analyzer measures the temperature through optic sensors, there is no any influence to the patients' organism.
How is AMP Hemogram analyzer session given?
Principle of function of the AMP non-invasive blood test and metabolite analyzer is based on measurement of temperature of biologically active "reference" point of the human body which data loaded, to PC from keyboard is then processed there.
Device has five sensors, which are to be placed onto so-called biologically active points of patients' body.
Bioactive or so-called reference-points used during examination, are following:
1. Bifurcation of the right and left neck artery (two points)
2. Right and left armpit (two points)
3. Umbilical area (one point)
Prior to examination, the five sensors are to be placed onto patient, and the personal data of him, and breath rate, pulse rate are to be loaded to PC from the keyboard. Then the data collection and calculation software starts. Analyzer processes signals coming from sensors placed on body of the patient, converts these signals to digital form and passes them to the PC.
What are benefits of non-invasive hemogram analyzer AMP?
Non-invasive hemogram analyzer AMP allows to estimate the state of organism from the position of its functional, hemodynamic equilibration, water metabolism and gas homeostasis, that are connect with fermentative and immunological correction;
To define a predisposition to diseases of central nervous system, cardiovascular system, internal, locomotor apparatus, circulation of the blood, metabolism and other pathology.
For the central nervous system complex determines:
- blood supply of cerebrum - sufficient or insufficient;
- state of cerebrum arteries - spasm or dilatation;
- state of cerebrum venules- spasm or dilatation;
- signs of venous outflow violation of cerebrum;
- state of third ventricle of the brain (size);
- size of cerebroventricular indices;
- pressure of spinal liquid;
- on the base of K, Na, Ca, Mg content estimation in the blood - determines neuromuscular conduction, susceptibility to spasm, muscular weakness, cramps.
For cardiovascular system complex diagnoses:
- coronarocardiosclerosis;
- violation of blood circulation of myocardium;
- lowering of the cardiac ejection size;
- rising of the cardiac ejection size;
- arrhythmia, temporary parameters of cardiac cycle;
- type of circulation of the blood: hyperkinetic, normorkinetic, hypokinetic.
For the lungs complex defines:
- dynamic vital capaciousness of the lungs;
- residual capaciousness of the lungs;
- chronic bronchitis, chronic tracheobronchitis with the asthmatic component;
- chronic, inflammatory pneumonia;
- elasticity of the lungs;
- pulmonary stream of the blood.
For the liver complex determines:
- hepatic stream of the blood;
- hepatitis;
- cirrhosis.
For the kidneys complex allows to diagnose:
- violation of filtration;
- violation of resorption;
- chronic nephritis;
- gloumeronephritis;
- pilonephritis.
Predicating upon indices of water metabolism complex defines:
- type of disorder of aqueous-electrolyte metabolism- prerequisite of osteochondrosis;
- mixed forms of dyskinesia;
- post-cellular hypohydradacia;
- cellular hyperhydradacia;
- cellular hypohydradacia.
When determining the activity of ferments and analyzing dynamic, hemodynamic equilibration, aqueous-electrolytic metabolism and gas homeostasis, complex allows:
- To estimate the compensatory abilities of organism.
- To determine the presence or absence of tendency to the development of chronic diseases of one's organism organs and systems.
- To choose the coincident type of physiotherapy or information methods of treatment. To prescribe an adequate therapy, acupuncture or other treatment, taking into account etiology and pathogenesis of sickness.
An example of a Patient’s Test with non-invasive hemogram analyzer AMP
14.09.2007 13:31:28 Dohis Eva 2912 Sex:F
Age:43 Weight:63 Breath.Freq..:18 Pulse:86
Blood formula: | ||
| 1. | Hemoglobin HGB (norm 120-175g/l) | : 127.88 g/l |
| 2. | Erythrocytes RBC (norm 4-5.6 in 1mm3*10E12/l) | : 3.99 1 mm 3 |
| 3. | Lymphocytes (19-37%) | : 22.10 % |
| 4. | Leukocytes WBC (4.3-11.3*10E9/l) | : 8.50 |
| 5. | Segmented neutrofiles (47-72%) | : 67.19 % |
| 6. | Erythrocyte sedimentation rate ESR(1-14mm/h) | : 7.16 mm/h |
| 7. | Eosinophils(0.5-5.8%) | : 0.85 % |
| 8. | Monocytes(3-11%) | : 5.82 % |
| 9. | Stab neutrofiles(1-6%) | : 4.04 % |
Electrolyte metabolism: | ||
| 10. | Calcium (Ca) in plasma (norm 2.25-3.00 mmol/l) | : 2.51 mmol/l |
| 11. | Magnesium (Mg) in plasma (norm 0.7-0.99mmol/l) | : 0.890 mmol/l |
| 12. | (K) in plasma (norm 3.48-5.30 mmol/l) | : 4.493 mmol/l |
| 13. | Sodium (Na) in plasma (norm 130.50-156.60 mmol/l) | : 135.8 mmol/l |
The system of blood coagulation: | ||
| 14. | The begining of fibrillation (norm 30sec..2min) | : 2`32`` min. sec. |
| 15. | The end of fibrillation (norm 3..5min) | : 3`23`` min. sec. |
| 16. | The thrombocytes (norm 180-320 thousand) | : 478,5 thousands |
| 17. | The haematocrite (norm 35..49 %) | : 37,5 % |
The fermentative system: | ||
| 18. | AST (norm 0,1..0,45 mmol/l) | : 0,208 mmol/l |
| 19. | ALT (norm 0,1..0,68 mmol/l) | : 0,810 mmol/l |
| 20. | AST (norm 8..40 U/l) | : 9,2 U/l |
| 21. | ALT (norm 5..30 U/l) | : 46,2 U/l |
| 22. | ALT/AST (norm 0,8..1,2) | : 3,900 |
| 23. | The amylase (norm 12..32 g/l*h) | : 10,3 g/l*h |
| 24. | The total bilirubin (norm 8,6...20,5 mkmol/l) | : 16,2 mkmol/l |
| 25. | The conjugated bilirubin (norm 2,2..6,1mkmol/l) | : 4,8 mkmol/l |
| 26. | The unconjugated bilirubin | : 11,4 mkmol/l |
| 27. | The concentration of plasma albumen (60-80g/l) | : 73,8 g/l |
The oxygen assimilation and transportation: | ||
| 28. | The plasma density (norm 1048..1055) | : 1046 |
| 29. | The volume of circulatory blood(norm 68..70 man) (norm 65..69 women) | : 63,5 ml/kg |
| 30. | The minute volume of circulatory blood (norm 3.5..4.3 l/min) | : 5.46 l/min |
| 31. | The rate of O2 delivery to tissue (norm 260..280 ml/sec) | : 210,3 |
| 32. | The surface of gaseous exchange (norm 3500..4300 sq.m.) | : 3474,8 sq.m. |
| 33. | The vital capacity of lungs (norm 3500..4300 cub.cm.) | : 2912,7 sq.cm |
| 34. | The transportation of oxygen (norm 900..1200 ml/min.) | : 868,3 ml/min |
| 35. | The quantity of assimilated oxygen on 100 gr. of tissue (norm 2.8-3.4 ml) | : 2,2 |
| 36. | The content of O2 in arterial blood (norm 95%..98%) | : 96,5 % |
| 37. | The cardiac ejection (norm 60-80 ml.) | : 71,4 ml |
| 38. | The quantity of assimilated oxygen on kg (norm 4-6 ml/min/kg) | : 4,7 ml/min/kg |
| 39. | The pulmonary ventilation (norm 4-12 l/min) | : 6,6 l/min |
| 40. | The quantity of assimilated oxygen ml/min (norm 200-250) | : 137,6 ml/min |
| 41. | The quantity of myocardial oxygen consumption (norm 7-10 ml/min) | : 9,4 ml/min |
| 42. | The deficit of circulatory blood (norm 0-250 ml) | : 75,9 |
| 43. | The vital capacity of lungs in an expiration phase(cub.cm.) | : 2078,67 |
| 44. | The maximum flow of air (norm 74-116 l/min) | : 123,8 |
| 45. | Test Tiffno (norm men. 84..110 %, women 86..109 %) | : 53,0 |
| 46. | The fibrinogen (norm 2,0-3,5 g/l) | : 3,1 |
| 47. | The concentration of creatinine (norm 55-123 mmol/l) | : 97,7 mmol/l |
| 48. | The dopamine B-hydroxylase (norm 28-32,5 nanom/ml/min) | : 25,5 nanom/ml/min |
| 49. | The concentration of lactic acid (norm 0.99-1,78 mmol/l) | : 1,5 mmol/l |
| 50. | The concentration of urea (norm 2,5-8,3 mmol/l) | : 4,4 mmol/l |
| 51. | The concentration of glucose (norm 4-6 mmol/l) | : 4,2 mmol/l |
| 52. | The concentration of triglyceride (norm 0.55-1.85 mmol/l) | : 2,09 mmol/l |
| 53. | The cholesterol total (norm SI: 3.11-6.48 mmol/l) (norm 3.9-8.06[Fredrickson et al., 1967]) | : 5,9 mmol/l |
| 54. | B- lipoprotein, (norm 17-55 mmol/l) | : 54,1 mmol/l |
| 55. | B- lipoprotein g/l(norm 3-6) | : 4,37 g/l |
| 56. | Low-density lipoproteins (norm 2.35-2.43 mmol/l) | : 2,35 mmol/l |
| 57. | Lowest-density lipoproteins (norm 0.20-0.52 mmol/l) | : 0,36 mmol/l |
| 58. | High-density lipoproteins (norm 1.25-4.25 mmol/l) | : 1,23 mmol/l |
The CO2 assimilation and transportation: | ||
| 59. | CO2 discharge (norm 119-300 ml/min) | : 401,9 ml/min |
| 60. | The content of CO2 gas in arterial blood (norm 32,5-46,6%) | : 34,2 % |
| 61. | The content of CO2 gas in venous blood (norm 51-53%) | : 65,8 % |
| 62. | The rate of CO2 production (norm 150-340 ml/min) | : 187,9 ml/min |
The internal blood flow, in % to total blood flow: | ||
| 63. | The myocardium current of blood in (norm 4.32-5.02%) | : 5,0 % of total blood flow |
| 64. | The muscles current of blood in(norm 14.56-16.93%) | : 14,0 % of total blood flow |
| 65. | The cerebral current of blood in(norm 12.82-14.9%) | : 14,1 % of total blood flow |
| 66. | The hepatic-portal current of blood in(norm 20.28-29.86%) | : 24,6 % of total blood flow |
| 67. | The nephritic current of blood in(norm 21.58-25.09%) | : 23,1 % of total blood flow |
| 68. | The skin current of blood in(norm 7.9-9.19%) | : 6,0 % of total blood flow |
| 69. | The other organs current of blood in(norm 5.76-6.7%) | : 4,3 % of total blood flow |
The internal blood flow, in ml/min: | ||
| 70. | The myocardium current of blood(norm 250-290 ml/min) | : 337,9 ml/min |
| 71. | The muscles current of blood (norm 930-1100 ml/min) | : 948,5 ml/min |
| 72. | The cerebral current of blood (norm 750-800 ml/min) | : 779,8 ml/min |
| 73. | The hepatic-portal current of blood (norm 1690-1740 ml/min) | : 1668,8 ml/min |
| 74. | The nephritic current of blood (norm 1430-1490 ml/min) | : 1568,6 ml/min |
| 75. | The skin current of blood (norm 500-535 ml/min) | : 414,8 ml/min |
| 76. | The other organs" current of blood (norm 375-390 ml/min) | : 293,9 ml/min |
| 77. | The acetylcholine (norm 81.1-92.1 mkg/ml) | : 77,3 mkg/ml |
| 78. | The acetylcholinesterase of erythrocytes (norm 220-278 mkmol/l) | : 249,3 mkmol/l |
The time slice of cardiomechanics: | ||
| 79. | The interval PQ (norm 0,125-0,165 sec) | : 0,127 sec |
| 80. | The interval QT (norm 0,355-0,400 sec) | : 0,394 sec |
| 81. | The interval QRS (norm 0,065-0,100 sec) | : 0,088 sec |
| 82. | The contraction of miocard of the left ventricle of heart (norm 60-85%) | : 54,9 % |
| 83. | The arterial pressure of systolic (mm of mercury ) | : 126,7 mm of mercury |
| 84. | The arterial pressure of diastolic (mm of mercury) | : 81,7 mm of mercury |
| 85. | The resistance of lesser circulation (norm 140-150 din/cm*sec) | : 145.4 din/cm*sec |
| 86. | The width of the third ventricle of cerebrum (norm 4-6 mm) | : 6.8 mm |
| 87. | The pressure of spinal liquid (norm 90-145 millimeter of water) | : 144.4 millimeter of water |
| 88. | The central venous pressure (norm 70-150 millimeter of water) | : 70.9 millimeter of water |
| 89. | The time of systemic circulation(norm 16.0-23.0 sec) | : 28.4 sec |
| 90. | The time of lesser circulation(norm 4.0-5.5 sec) | : 6.1 sec |
| 91. | The spectral wave-length absorption of CO2 in blood(norm 4.165-4.335 mkm) | : 3.946 mkm |
| 92. | The spectral wave-length absorption of N2O in blood(norm 3.7828-3.9372 mkm) | : 3.467 mkm |
| 93. | The concentration of H2 of gastric juices(norm 1.2-1.7) | : 1.2 |
| 94. | PH blood (norm 7.36-7.45) | : 7,39 |
| 95. | SH (norm 7.32-7.40) | : 5.07 |
| 96. | The cardiac work (norm 0.692-0.788 Joule) | : 0.910 Joule |
| 97. | The glutamine acid (norm 0.0045-0.0055 mmol/l) | : 0.00468 mmol/l |
| 98. | The tyrosine acid (norm 1.4-1.8 mg*%,Zbarskiy B.I., 1972) | : 1.38 mg*% |
| 99. | The creatine kinase of muscules (473-483 mkmol/min/kg) | : 427.32 mkmol/min/kg |
| 100. | The creatine kinase of cardiac (norm 35.1-38.1 mkmol/min/kg) | : 36.47 mkmol/min/kg) |
| 101. | The glycogen | : 15,13 (norm: 11,7...20,6 children:7,5...11,7 mg%) |
| 102. | The wasting power of life support | : 7,50 kсal/kg/min (norm 1,23..4,3 kсal/kg/min) |
| 103. | The working rate of assimilated oxygen | : 74,10 (norm:45..60%) |
| 104. | The time of single load | : 4,20 (norm:3..10 min.) |
| 105. | The respiratory factor | : 1,01 (norm:0,8..1,2) |
| 106. | The Tyrozine | : 0,0062 mmol/l |
| 107. | The cerebral blood flow on 100g of tissue | : 51,42 norm:50..55 ml/100g |
| 108. | The testosterone of urine | : 6,17 (norm: men:6,93..17,34 women: 2,77..10,4 mkmol/24hours) |
| 109. | Total estrogen | : 113,33 (norm: men:17,95..64,62 women: 78,98..376,95 nanomol/24hours) |
| 110. | Extracellular water | : 21,36 (norm:21-23%) |
| 111. | Cellular water | : 40,49 (norm:39-42%) |
| 112. | Total water | : 54,53 (norm:53-60%) |
| 113. | The blood flow per 1gr of thyroid gland | : 3,95 (norm:4ml) |
| 114. | The blood flow per 1gr of cerebral tissue | : 2,90 (norm:2.9-3.2ml) |
| 115. | The index of extraction of tissue oxygen | : 0,280 (norm:children 0.296-0.336 adult 0.26-0.34) |
| 116. | Basal pressure of sphincter - Oddy | : 43,3 (norm:39-41) |
| 117. | The index of protrombin | : 72,0% (norm:75-104%) |
It is preliminary result, an automatic help for a doctor in charge:
The spectral wave-length of N2O absorption is changed. 3,467 mkm.
It is necessary to get a consultation of a gastroenterologist (gastroduodenitis?). It is necessary to eliminate pathology of small intestine.
It is recommended the advice of gastroenterologist.(Gastroduodenitis?).
It is the vegetovascular dystonia mainly by hypotonic type. It is the biliary dyskinesia.
There is the hyperacid gastritis.
There is the vegetovascular dystonia, the liquor-venous discirculatory. There is the liquor hypertensive syndrome.
The spectral wavelength of N2O absorption is changed. The blood flow of small pelvis organs is reducing. It is recommended the advices of gynecologist, proctologist and gastroenterologist.
There is the hypertension of lesser circulation.
The tonic derangements are possible.Mg=0,890 Ca=2,51
The wide of the 3d ventricle is =6,8mm.
It is necessary to eliminate the pulmonic mechanism of homeostasis derangement (restrictive lung disease).
It is recommended the advices of gynecologist?. The blood flow of other organs is 4,3 %
The index Tiffno is reduced till: 53,0 %( the norm for women is between 86..109 %)
