Fractional Flow Reserve\u2013Guided Deferred Versus Complete Revascularization in Patients With Diabetes Mellitus

To assess the safety and efficacy of deferred versus complete revascularization using a fractional flow reserve (FFR)\u2013guided strategy in patients with diabetes mellitus (DM), we analyzed all DM patients who underwent FFR-guided revascularization from January 1, 2010, to December 12, 2013. Patients were divided into 2 groups: those with 651 remaining FFR-negative (>0.80) medically treated lesions [FFR( 12)MT] and those with only FFR-positive lesions ( 640.80) who underwent complete revascularization [FFR(+)CR] and were followed until July 1, 2015. The primary end point was the incidence of major adverse cardiovascular events (MACE), a composite of death, myocardial infarction (MI), target lesion (FFR assessed) revascularization, and rehospitalization for acute coronary syndrome. A total of 294 patients, 205 (69.7%) versus 89 (30.3%) in FFR( 12)MT and FFR(+)CR, respectively, were analyzed. At a mean follow-up of 32.6 \ub1 18.1\ua0months, FFR( 12)MT was associated with higher MACE rate 44.0% versus 26.6% (log-rank p\ua0=\ua00.02, Cox regression\u2013adjusted hazard ratio [HR] 2.01, 95% confidence interval [CI] 1.21 to 3.33, p\ua0<0.01), and\ua0driven by both safety and efficacy end points: death/MI (HR 2.02, 95% CI 1.06 to 3.86, p\ua0= 0.03), rehospitalization for acute coronary syndrome (HR 2.06, 95% CI 1.03 to 4.10, p\ua0= 0.04), and target lesion revascularization (HR 3.38, 95% CI 1.19 to 9.64, p\ua0= 0.02). Previous MI was a strong effect modifier within the FFR( 12)MT group (HR 1.98, 95% CI 1.26 to 3.13, p <0.01), whereas this was not the case in the FFR(+)CR group (HR 0.66, 95% CI 0.27 to 1.62, p\ua0= 0.37). Significant interaction for MACE was present between FFR groups and previous MI (p\ua0= 0.03). In conclusion, in patients with DM, particularly those\ua0with previous MI, deferred revascularization is associated with poor medium-term outcomes. Combining FFR with imaging techniques may be required to guide our treatment strategy in these patients with high-risk, fast-progressing atherosclerosis

Circulatory response to postural change in healthy male subjects in relation to age

The initial heart rate (HR) response evoked by standing up and 70 degrees head-up tilt from the supine resting position, as well as the changes in HR and blood pressure after 1-2 min in the upright position, was analysed in teenage boys (aged 10-15 years) and healthy old men (aged 60-90 years). Standing up induced a characteristic temporary HR increase that lasted 20 s and far exceeded the gradual initial HR rise induced by head-up tilt. The main effect of age on the initial HR transients was a definite diminution of the response. After 1-2 min standing and tilting, young subjects showed a pronounced increase in HR and diastolic pressure with little change in systolic pressure. In contrast, old subjects showed a lesser increase in HR and diastolic pressure and a decrease in systolic pressure. A fall in systolic pressure of greater than 20 mmHg after 1 min of active standing was, however, not observed. It is concluded that the circulatory adjustment to the stress of postural change differs markedly between young and elderly subjects. In healthy old subjects marked postural hypotension appears to be rar

Orthostatic circulatory control in the elderly evaluated by non-invasive continuous blood pressure measurement

1. Continuous orthostatic responses of blood pressure and heart rate were measured in 40 healthy and active elderly subjects over 70 years of age in order to assess the time course and rapidity of orthostatic cardiovascular adaptation in old age. 2. During the first 30 s (initial phase) the effects of active standing and passive head-up tilt closely resembled those observed earlier in younger age groups. Standing up was accompanied by a drop (mean +/- SD) in systolic and diastolic blood pressures of 26 +/- 13 mmHg and 12 +/- 18 mmHg, respectively, at around 10 s, and a subsequent rise up to 11 +/- 17 mmHg and 8 +/- 6 mmHg above supine values at around 20 s. The drop in blood pressure upon standing was accompanied by a transient increase in heart rate with a maximum of 13 beats/min, followed by a gradual decrease to 7 beats/min above supine levels. These characteristic transient changes were absent upon a passive head-up tilt. 3. After 1-2 min of standing (early steady-state phase) diastolic blood pressure and heart rate increased significantly after active and passive postural changes. On average, for all subjects systolic blood pressure tended to increase from control during 5-10 min standing, reaching a significant difference at 10 min. During standing, the largest increases in systolic blood pressure were found in subjects with the lowest supine blood pressures. 4. In conclusion, for the investigation of orthostatic circulatory responses in elderly subjects the following factors have to be taken into account: active versus passive changes in posture, the timing of the blood pressure reading, and the level of supine blood pressur

Disparities in circulatory adjustment to standing between young and elderly subjects explained by pulse contour analysis

1. The circulatory adjustment to standing was investigated in two age groups. Young subjects consisted of 20 healthy 10-14-year-old girls and boys. Elderly subjects consisted of 40 70-86-year-old healthy and active females and males. Continuous responses of blood pressure and heart rate were recorded by Finapres. A pulse contour algorithm applied to the finger arterial pressure waveform was used to assess stroke volume responses. 2. During the first 30s (initial phase), an almost identical drop in mean blood pressure was found in both age groups (young, 16 +/- 10 mmHg; old, 17 +/- 10 mmHg), but the initial heart rate increase was attenuated in the elderly subjects (young, 29 +/- 7 beats/min; old, 17 +/- 7 beats/min). 3. During the period from 30 s to 10 min of standing, mean blood pressure increased from 96 +/- 12 to 106 +/- 12 mmHg in the elderly subjects compared with almost no change in the young subjects (from 82 +/- 8 to 84 +/- 7 mmHg). In the elderly subjects a progressive increase in total peripheral resistance (from 114 +/- 14% to 146 +/- 29%) was found, compared with an initial rapid increase in total peripheral resistance (126 +/- 18% after 30 s) with no further change during prolonged standing (124 +/- 17% after 10 min) in the young subjects. In this age group the decrease in stroke volume and the increase in heart rate after 10 min of standing were large (young, -37 +/- 11% and 27 +/- 11 beats/min; old, -31 +/- 9% and 7 +/- 6 beats/min, respectively).(ABSTRACT TRUNCATED AT 250 WORDS

Pilots with vasovagal syncope: Fit to fly?

Two pilots who had experienced vasovagal syncope were grounded by the aeromedical service. Pilot A had experienced three episodes of syncope in medical settings, none during flight. Pilot B had experienced four episodes of syncope in emotional/medical settings, one during flight. Whether a pilot who experienced one or more episodes of vasovagal syncope is declared fit to fly now depends on the number of episodes experienced. We propose that pilots should be assessed individually. Certainty of the diagnosis of vasovagal syncope, the chance and predictability of recurrences during flight, and the possibility of effective therapy should be assessed. Chance of recurrence during flight is low when the triggering factor is known and avoidable. Pilots with syncopal episodes in predictable (e.g., medical) situations, with clear prodromal symptoms and/or effective therapy, should be declared fit to fly. A symptom-free period and/or restriction to fly 'as or with a co-pilot' can be considere