AIMS/HYPOTHESIS: Assessment of cerebral regulation in diabetic patients is often problematic because of the presence of cardiac autonomic neuropathy. We evaluated the technique of oscillatory neck suction at 0.1 Hz to quantify cerebral regulation in diabetic patients and healthy control subjects. SUBJECTS AND METHODS: In nine type 2 diabetic patients with cardiac autonomic neuropathy and 11 age-matched controls, we measured blood pressure and cerebral blood flow velocity responses to application of 0.1 Hz neck suction. We determined spectral powers and calculated the transfer function gain and phase shift between 0.1 Hz blood pressure and cerebral blood flow velocity oscillations as parameters of cerebral regulation. RESULTS: In the patients and control subjects, neck suction did not significantly influence mean values of the RR interval, blood pressure and cerebral blood flow velocity. The powers of 0.1 Hz blood pressure and cerebral blood flow velocity oscillations increased in the control subjects, but remained stable in the patients. Transfer function gain remained stable in both groups. Phase shift decreased in the patients, but remained stable in control subjects. CONCLUSIONS/ INTERPRETATION: The absence of an increase in the power of 0.1 Hz blood pressure and cerebral blood flow velocity oscillations confirmed autonomic neuropathy in the diabetic patients. Gain analysis did not show altered cerebral regulation. The decrease in phase shift in the patients indicates a more passive transmission of neck suction-induced blood pressure fluctuations onto the cerebrovascular circulation, i.e. altered cerebral regulation, in the patients, and is therefore suited to identifying subtle impairment of cerebral regulation in these patients.
AIMS/HYPOTHESIS: Assessment of cerebral regulation in diabeticpatients is often problematic because of the presence of cardiac autonomic neuropathy. We evaluated the technique of oscillatory neck suction at 0.1 Hz to quantify cerebral regulation in diabeticpatients and healthy control subjects. SUBJECTS AND METHODS: In nine type 2 diabeticpatients with cardiac autonomic neuropathy and 11 age-matched controls, we measured blood pressure and cerebral blood flow velocity responses to application of 0.1 Hz neck suction. We determined spectral powers and calculated the transfer function gain and phase shift between 0.1 Hz blood pressure and cerebral blood flow velocity oscillations as parameters of cerebral regulation. RESULTS: In the patients and control subjects, neck suction did not significantly influence mean values of the RR interval, blood pressure and cerebral blood flow velocity. The powers of 0.1 Hz blood pressure and cerebral blood flow velocity oscillations increased in the control subjects, but remained stable in the patients. Transfer function gain remained stable in both groups. Phase shift decreased in the patients, but remained stable in control subjects. CONCLUSIONS/ INTERPRETATION: The absence of an increase in the power of 0.1 Hz blood pressure and cerebral blood flow velocity oscillations confirmed autonomic neuropathy in the diabeticpatients. Gain analysis did not show altered cerebral regulation. The decrease in phase shift in the patients indicates a more passive transmission of neck suction-induced blood pressure fluctuations onto the cerebrovascular circulation, i.e. altered cerebral regulation, in the patients, and is therefore suited to identifying subtle impairment of cerebral regulation in these patients.
Authors: Alfonso Lagi; Giacomo Laffi; Simone Cencetti; Giuseppe Barletta; Marco Foschi; Francesco Vizzutti; Renzo Bandinelli; Pietro Pantaleo; Cristina Tosti Guerra; Paolo Gentilini; Giorgio La Villa Journal: Clin Sci (Lond) Date: 2002-07 Impact factor: 6.124
Authors: Rong Zhang; Julie H Zuckerman; Kenichi Iwasaki; Thad E Wilson; Craig G Crandall; Benjamin D Levine Journal: Circulation Date: 2002-10-01 Impact factor: 29.690
Authors: L Bernardi; F Salvucci; R Suardi; P L Soldá; A Calciati; S Perlini; C Falcone; L Ricciardi Journal: Cardiovasc Res Date: 1990-12 Impact factor: 10.787
Authors: Jacqueline K Limberg; James A Smith; Rogerio N Soares; Jennifer L Harper; Keeley N Houghton; Dain W Jacob; Michael T Mozer; Zachary I Grunewald; Blair D Johnson; Timothy B Curry; Tracy Baynard; Camila Manrique-Acevedo; Jaume Padilla Journal: Am J Physiol Heart Circ Physiol Date: 2020-06-05 Impact factor: 4.733