Shock Clinical Trial
Official title:
HEAVy HAT-HEAlthy Volunteers Heart to Arm Time. Haemorrhage Simulation Protocol in Healthy Volunteers.
In prehospital settings, hypovolemic shock diagnosis is based on Advanced Trauma Life
Support (ATLS) shock classification. The most often used clinical signs are heart rate (HR),
arterial blood pressure (BP), respiratory rate, neurologic status, diuresis, skin colour and
temperature. However, some of these signs, such as hypotension and tachycardia, lack
specificity and sensitivity and do not occur early enough. Even with an early preload
reduction, blood pressure can remain constant due to compensatory mechanisms, such as
vasoconstriction and positive chronotropism. Tachycardia occurs earlier, but has poor
specificity and sensitivity. A retrospective analysis of 25,287 trauma patients showed that
among 489 patients presenting with systolic BP < 90 mmHg, only 65% had tachycardia (HR > 90
bpm), while 39% of patients with systolic BP > 120 mmHg were tachycardic, probably resulting
from other stimuli influencing heart rate, such as pain, fear, circulating hormones and
endogenous enkephalins. Therefore, it could be very useful to have an index that identifies
initial volume variation, when physiological regulatory mechanisms are still effectively
maintaining normal BP.
Pulse transit time (PTT) is the sum of pre-ejection period (PEP; the time interval between
the onset of ventricular depolarization and ventricular ejection) and vascular transit time
(VTT; the time it takes for the pulse wave to travel from the aortic valve to peripheral
arteries). PEP and VTT variations depend on preload variation, and PTT increases with PEP,
showing a linear correlation (R2 = 0.96). Chan et al. subjected 11 healthy volunteers to the
head-up tilt test, and demonstrated that PEP increased and VTT decreased for increasing tilt
angles from 0° to 80°, corresponding to light-moderate bleeding. They also observed early
sympathetic activation, expressed by decreases of both RR interval (RR) and VTT, dampening
the PTT increase, since PTT is influenced by both continuous PEP increase and progressive
VTT decrease occurring during hypovolaemia.
Here the investigators describe a new index, called indexed Heart to Arm Time (iHAT). iHAT
is the mPTT/RR ratio, where mPTT is a modified PTT, measured from the onset of ventricular
depolarization (the 'R' wave of the ECG trace) to the systolic peak of the
photoplethysmographic pulse oxymetry (PPG) waveform. mPTT is indexed to RR interval on ECG
to counteract sympathetic activation that would dampen PEP increase and enhance VTT
reduction, by means of positive inotropism and peripheral vasoconstriction, respectively.
iHAT therefore increases during haemorrhage because of preload reduction and the consequent
PEP increase and RR interval decrease. iHAT is expressed as the time percentage of the
interbeat interval (RR) it takes to the PPG waveform to travel to peripheral arteries. In
this study iHAT has been calculated as the average of beat-to-beat mPTT/RR ratios over 30
heart beats (corresponding to at least 2 breathing cycles) in order to minimize the effect
of spontaneous breathing on preload, and thus on PEP and PTT.
In the present study, the investigators aimed to evaluate iHAT in a simulating model of
hypovolaemia by using a Lower Body Negative Pressure (LBNP) chamber. LBNP chamber simulates
haemorrhage by applying negative pressure to the lower limbs, thus giving an accurate model
of hypovolemia. The LBNP chamber has been used for many years for research purposes, and in
2001 Convertino suggested it is a useful device to test severe haemorrhage-related
hemodynamic responses. In fact, the induced volemic sequestration is an efficient technique
to study physiological behaviours in humans.
The primary endpoint was to evaluate the use of the iHAT as a predictor of hypovolaemia. The
secondary endpoint was to compare the specificity and sensitivity of the iHAT index compared
to commonly used indexes (BP, HR). Furthermore, the investigators aimed to assess
feasibility of Transthoracic echocardiography (TTE) evaluation of Cardiac Output (CO) in a
haemorrhagic model and to evaluate CO changes with respect to measured hemodynamic
variables.
TTE evaluation of CO is non invasive and comparable to thermodilution, and of possible use
in an emergency setting.
n/a
Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
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