Inflammatory marker levels and peripheral blood circulation in skin microvessels in patients with chronic obstructive pulmonary disease

Levels of inflammatory markers and skin microcirculation were studied in patients with chronic obstructive pulmonary disease. Proinflammatory cytokine concentrations and number of desquamated endothelial cells in blood flow were significant increased during exacerbation compared with controls. The increase in proinflammatory cytokine concentrations in exacerbation was accompanied by increased skin perfusion, increased oscil lation amplitudes in the frequency ranges of respiratory rhythm and higher endothelial activity compared with controls. In stable condition, the lev els of proinflammatory cytokines decreased compared with those in exacerbation. Myogenic activity was decreased twice in patients with stable con dition compared with healthy persons. The endothelialdependent vasodilation did not change and the endothelialindependent vasodilation increased in all patients compared with controls.

1. Barnes P.J. Mediators of chronic obstructive pulmonary disease. Pharmacol. Rev. 2004; 56: 515-548.

2. Chung K.F. Cytokines in chronic obstructive pulmonary disease. Eur. Respir. J. 2001; 34 (suppl.): 5059.

3. Amosov V.I., Zolotnitskaya V.P., Lukina O.V. i dr. Mikrotsirkulyatornye disfunktsii u bol'nykh khronicheskoi obstruktivnoi bolezn'yu legkikh. Region. krovoobrashch. i mikrotsirk. 2005; 3: 41-45.

4. Chuchalin A.G. Khronicheskie obstruktivnye bolezni legkikh. M.; 2000.

5. Kirillov M.M., Prisyazhnyuk I.V., Shapovalova T.G. i dr. Vliyanie medikamentoznoi terapii bronkhial'noi astmy na sistemu mikrotsirkulyatsii i gemostaz. Pul'monologiya 2002; 12 (2): 17-22.

6. Hill A., Gompertz S., Stockley R. Factors influencing airway inflammation in chronis obstructive pulmonary disease. Thorax 2000; 55: 970-977.

7. Liihrs H., Papadopoulos T., Harald H. et al. Type I nitric oxide synthase in the human lung is predominantly expressed in capillary endothelial cells. Respir. Physiol. 2002; 129: 367-374.

8. Fischer A., Folkertsf G., Geppetti P. et al. Mediators of asthma: nitric oxide. Pulm. Pharmacol. Ther. 2002; 15: 73-81.

9. Highton J., Hessian P. A solid-phase enzyme immunoassay for C-reactive protein: clinical value and the effect of rheumatoid factor. J. Immunol. Meth. 1984; 68 (1-2): 185-192.

10. Hladovec J. Circulating endothelial cells as a sign of vessel wall lesions. Physiol. Bohemoslov. 1978; 27 (2): 140-144.

11. Petrishchev N.N., Berkovich O.A., Vlasov T.D. i dr. Diagnosticheskaya tsennost' opredeleniya deskvamirovannykh endotelial'nykh kletok v krovi. Klin. lab. diagn. 2001; 1: 50-52.

12. Tikhonova I.V., Tankanag A.V., Kosyakova N.I. i dr. Issledovanie endotelii-zavisimykh kolebanii krovotoka v mikrotsirkulyatornom rusle kozhi cheloveka. Ros. fiziol. zhurn. im. I.M. Sechenova 2006; 92 (12): 1429-1435.

13. Stefanovska A., Bracic M., Kvernmo H.D. Wavelet analysis of oscillations in peripheral blood circulation measured by Doppler technique. IEEE Trans. Biomed. Eng. 1999; 46: 1230-1239.

14. Tikhonova I.V., Tankanag A.V., Kosyakova N.I. i dr. Otsenka vozrastnykh izmenenii regulyatsii perifericheskogo krovotoka u cheloveka. Ros. fiziol. zhurn. im. I.M. Sechenova 2005; 91 (11): 1305-1311.

15. Mayer M.F., Rose C.J., Hulsmann J.)O. et al. Impaired 0.1 Hz vasomotion assessed by laser Doppler anemometry as an early index of peripheral sympathetic neuropathy in diabetes. Microvasc. Res. 2003; 65: 88-95.

16. Muck)Weymann M.E., Albrecht H)P., Hager D. et al. Respiratory-dependent laser Doppler flux motion in different skin areas and its meaning to autonomic nervous control of the vessels of the skin. Microvasc. Res. 1996; 52: 69-78.

17. Kastrup J., Bulow J., Lassen N.A. Vasomotion in human skin before and after local heating recorded with laser Doppler flowmetry. Int. J. Microcirc.: Clin. Exp. 1989; 8: 205-215.

18. Soderstrom T., Stefanovska A., Veber M. et al. Involvement of sympathetic nerve activity in skin blood flow oscillations in humans. Am. J. Physiol. Heart Circ. Physiol. 2003; 284: H1638-H1646.

19. Kvernmo H.D., Stefanovska A., Bracic A. et al. Oscillations in the human cutaneous blood perfusion signal modified by endothelium-dependent and endothelium-independent vasodilators. Microvasc. Res. 1999; 57: 298-309.

20. Manukhina E., Downey H.F., Mallet R.T. Role of nitric oxide in cardiovascular adaptation to intermittent hypoxia. Exp. Biol. Med. 2006; 231: 343-365.