Abstract

In order to choose people for medical examination, a thermal-vision study of the hands and a computer analysis of the variability of the cardiac rhythm were carried out before and after immersing the left hand up to the lower third of the forearm for one minute in a vessel with water at a temperature of 6–8°C. The initial symmetry of the thermal radiation of the hands and the convection type of restoration of heat transport by the blood flow through the vascular system of the arteries of the hand and fingers under the parasympathetic regulation of the vegetative nervous system was evidence of the compensation of the blood circulation. Hypothermia of the forearm and the fingers of the left hand and the contact method of heat transport from the warm zones within the forearm to the cold zones within the hands under the increased activity of the sympathetic nervous system and the equilibrium of the sections of vegetative regulation of the cardiac rhythm after a test with cooling was evidence of the torpidity of the compensator vascular reactions and served as a basis for an in-depth examination in connection with ischemic heart disease.

© 2013 Optical Society of America

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  1. Yu. N.  Belenkov, R. G.  Oganov, eds., Cardiology: National Management (GÉOTAR-Media, Moscow, 2007).
  2. M. M.  Miroshnikov, Theoretical Principles of Optoelectronic Devices (Mashinostroenie, Leningrad, 1983), pp. 586–649.
  3. V. P.  Mel’nikova, M. M.  Miroshnikov, eds., Clinical Thermal Vision (Gos. Opt. Inst., St. Petersburg, 1999).
  4. S. N.  Kolesov, M. G.  Volovik, M. A.  Priluchny?, Medical Thermal Vision. A Modern Methodological Approach (Nizhni?? Novgorod, 2008).
  5. A. N.  Nikanov, B. A.  Skripal’, Thermal-Vision Method of Research in the Diagnosis of Professional Diseases in Workers of an Industrial Complex of the Far North (Apatity, 2011).
  6. L. M.  Sheppard, “Thermal imaging technique tries a comeback,” Biophotonics Int. 6, No. 7, 54 (1999).
  7. N. V.  Popova, V. A.  Popov, A. B.  Gudkov, “Using thermal vision and cardiac-rhythm variability in estimating the vascular reactions of nitroglycerine in patients with ischemic disease of the heart,” Vrach-aspirant No. 6.2.(49), 382 (2012).
  8. V. A.  Popov, “The clinico-diagnostic response of the thermal radiation of a person in diagnosis and treatment of illnesses of the blood vessels,” Dissertation for Doctor of Medical Sciences, Arkhangel’sk (1997).
  9. R. M.  Baevski?, A. P.  Berseneva, Introduction to Prenosological Diagnosis (Slovo, Moscow, 2008).
  10. G. A.  Orlov, V. A.  Popov, “Ischemia of the myocardium and reactions of the vessels of the upper extremities (analysis of the IR emission),” Kardiologiya 21, No. 1, 96 (1981).
  11. A. L.  Maksimov, “Prognosis of the adaptation reactions and evaluating the physiological human reserves in extreme conditions of the medium on the basis of the concept of an integral marker,” Author’s Abstract of Dissertation for Doctor of Medical Sciences, Arkhangel’sk (1994).
  12. L. S.  Kaminski?, Processing Clinical and Laboratory Data (Medgiz, Leningrad, 1959), pp. 64–177.

2012 (1)

N. V.  Popova, V. A.  Popov, A. B.  Gudkov, “Using thermal vision and cardiac-rhythm variability in estimating the vascular reactions of nitroglycerine in patients with ischemic disease of the heart,” Vrach-aspirant No. 6.2.(49), 382 (2012).

1999 (1)

L. M.  Sheppard, “Thermal imaging technique tries a comeback,” Biophotonics Int. 6, No. 7, 54 (1999).

1981 (1)

G. A.  Orlov, V. A.  Popov, “Ischemia of the myocardium and reactions of the vessels of the upper extremities (analysis of the IR emission),” Kardiologiya 21, No. 1, 96 (1981).

Baevskii, R. M.

R. M.  Baevski?, A. P.  Berseneva, Introduction to Prenosological Diagnosis (Slovo, Moscow, 2008).

Berseneva, A. P.

R. M.  Baevski?, A. P.  Berseneva, Introduction to Prenosological Diagnosis (Slovo, Moscow, 2008).

Gudkov, A. B.

N. V.  Popova, V. A.  Popov, A. B.  Gudkov, “Using thermal vision and cardiac-rhythm variability in estimating the vascular reactions of nitroglycerine in patients with ischemic disease of the heart,” Vrach-aspirant No. 6.2.(49), 382 (2012).

Kaminskii, L. S.

L. S.  Kaminski?, Processing Clinical and Laboratory Data (Medgiz, Leningrad, 1959), pp. 64–177.

Kolesov, S. N.

S. N.  Kolesov, M. G.  Volovik, M. A.  Priluchny?, Medical Thermal Vision. A Modern Methodological Approach (Nizhni?? Novgorod, 2008).

Maksimov, A. L.

A. L.  Maksimov, “Prognosis of the adaptation reactions and evaluating the physiological human reserves in extreme conditions of the medium on the basis of the concept of an integral marker,” Author’s Abstract of Dissertation for Doctor of Medical Sciences, Arkhangel’sk (1994).

Miroshnikov, M. M.

M. M.  Miroshnikov, Theoretical Principles of Optoelectronic Devices (Mashinostroenie, Leningrad, 1983), pp. 586–649.

Nikanov, A. N.

A. N.  Nikanov, B. A.  Skripal’, Thermal-Vision Method of Research in the Diagnosis of Professional Diseases in Workers of an Industrial Complex of the Far North (Apatity, 2011).

Orlov, G. A.

G. A.  Orlov, V. A.  Popov, “Ischemia of the myocardium and reactions of the vessels of the upper extremities (analysis of the IR emission),” Kardiologiya 21, No. 1, 96 (1981).

Popov, V. A.

N. V.  Popova, V. A.  Popov, A. B.  Gudkov, “Using thermal vision and cardiac-rhythm variability in estimating the vascular reactions of nitroglycerine in patients with ischemic disease of the heart,” Vrach-aspirant No. 6.2.(49), 382 (2012).

G. A.  Orlov, V. A.  Popov, “Ischemia of the myocardium and reactions of the vessels of the upper extremities (analysis of the IR emission),” Kardiologiya 21, No. 1, 96 (1981).

V. A.  Popov, “The clinico-diagnostic response of the thermal radiation of a person in diagnosis and treatment of illnesses of the blood vessels,” Dissertation for Doctor of Medical Sciences, Arkhangel’sk (1997).

Popova, N. V.

N. V.  Popova, V. A.  Popov, A. B.  Gudkov, “Using thermal vision and cardiac-rhythm variability in estimating the vascular reactions of nitroglycerine in patients with ischemic disease of the heart,” Vrach-aspirant No. 6.2.(49), 382 (2012).

Priluchnyi, M. A.

S. N.  Kolesov, M. G.  Volovik, M. A.  Priluchny?, Medical Thermal Vision. A Modern Methodological Approach (Nizhni?? Novgorod, 2008).

Sheppard, L. M.

L. M.  Sheppard, “Thermal imaging technique tries a comeback,” Biophotonics Int. 6, No. 7, 54 (1999).

Skripal’, B. A.

A. N.  Nikanov, B. A.  Skripal’, Thermal-Vision Method of Research in the Diagnosis of Professional Diseases in Workers of an Industrial Complex of the Far North (Apatity, 2011).

Volovik, M. G.

S. N.  Kolesov, M. G.  Volovik, M. A.  Priluchny?, Medical Thermal Vision. A Modern Methodological Approach (Nizhni?? Novgorod, 2008).

Biophotonics Int. (1)

L. M.  Sheppard, “Thermal imaging technique tries a comeback,” Biophotonics Int. 6, No. 7, 54 (1999).

Kardiologiya (1)

G. A.  Orlov, V. A.  Popov, “Ischemia of the myocardium and reactions of the vessels of the upper extremities (analysis of the IR emission),” Kardiologiya 21, No. 1, 96 (1981).

Vrach-aspirant (1)

N. V.  Popova, V. A.  Popov, A. B.  Gudkov, “Using thermal vision and cardiac-rhythm variability in estimating the vascular reactions of nitroglycerine in patients with ischemic disease of the heart,” Vrach-aspirant No. 6.2.(49), 382 (2012).

Other (9)

V. A.  Popov, “The clinico-diagnostic response of the thermal radiation of a person in diagnosis and treatment of illnesses of the blood vessels,” Dissertation for Doctor of Medical Sciences, Arkhangel’sk (1997).

R. M.  Baevski?, A. P.  Berseneva, Introduction to Prenosological Diagnosis (Slovo, Moscow, 2008).

Yu. N.  Belenkov, R. G.  Oganov, eds., Cardiology: National Management (GÉOTAR-Media, Moscow, 2007).

M. M.  Miroshnikov, Theoretical Principles of Optoelectronic Devices (Mashinostroenie, Leningrad, 1983), pp. 586–649.

V. P.  Mel’nikova, M. M.  Miroshnikov, eds., Clinical Thermal Vision (Gos. Opt. Inst., St. Petersburg, 1999).

S. N.  Kolesov, M. G.  Volovik, M. A.  Priluchny?, Medical Thermal Vision. A Modern Methodological Approach (Nizhni?? Novgorod, 2008).

A. N.  Nikanov, B. A.  Skripal’, Thermal-Vision Method of Research in the Diagnosis of Professional Diseases in Workers of an Industrial Complex of the Far North (Apatity, 2011).

A. L.  Maksimov, “Prognosis of the adaptation reactions and evaluating the physiological human reserves in extreme conditions of the medium on the basis of the concept of an integral marker,” Author’s Abstract of Dissertation for Doctor of Medical Sciences, Arkhangel’sk (1994).

L. S.  Kaminski?, Processing Clinical and Laboratory Data (Medgiz, Leningrad, 1959), pp. 64–177.

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