Blood Loss, Surgical Clinical Trial
Official title:
Evaluating and Comparing the Accuracy of Non-invasive Hemoglobin Monitoring by Spectrophotometry With and Without Digital Nerve Block in Patients Undergoing Spinal Surgery in Sina Hospital During 2016-2017
The decision to transfuse or not to transfuse blood products is one of the main issues in
patients undergoing surgery.
The standard laboratory method of hemoglobin assessment is time-consuming, gives intermittent
data, and requires venipuncture which is invasive and painful. In the past decade, the use of
non-invasive and faster methods, which allow physicians to measure hemoglobin levels at the
patient's bedside, have become widespread. One of the tools that make this possible is
Spectrophotometric Hemoglobin.
However, one of the main concerns regarding this method is its accuracy. Since the accuracy
of this assessment depends on the extent of perfusion of the organ on which the probe is
placed, use of digital nerve blocks proposed to increase its accuracy.
This study aims to evaluate the effects of digital nerve block (with bupivacaine) on the
accuracy of non-invasive hemoglobin monitoring by spectrophotometry in patients undergoing
spinal surgery.
The decision to transfuse or not to transfuse blood products is one of the main issues in
healthcare systems. Timely transfusion of blood to a patient bleeding, either due to the
surgery or because of the trauma, can prevent tissue hypoxia and ischemia in vital organs.
However, transfusion of blood products should be done carefully and cautiously due to the
potential complications of transfusions, and also because of the cost of providing blood
products 1, 2, 3. Hence, during surgeries, hemoglobin level has a vital role in the diagnosis
and management of patients with anemia.
The standard laboratory method of hemoglobin assessment is time-consuming, gives intermittent
data, and requires venipuncture which is invasive and painful. In the past decade, the use of
non-invasive and faster methods, which allow physicians to measure hemoglobin levels at the
patient's bedside, have become widespread. One of the tools that make this possible is
Spectrophotometric Hemoglobin (SpHb Masimo Rainbow Co-oximeter). This procedure is applied by
a digital probe and allows physicians to monitor hemoglobin levels continuously. 4, 5, 6
However, one of the main concerns regarding this method is its accuracy. Actually, the
difference between the measured hemoglobin level and the actual hemoglobin level of the
patient, might make it impossible for physicians to decide with sufficient confidence3.
From the time that SpHb has been available in operating rooms, various studies have evaluated
its accuracy. While its accuracy has been reported relatively acceptable (mean difference is
about 1-1.5 g/dl comparing to the lab data),4 there are still concerns regarding this issue.
Furthermore, it is not clear whether this difference would remain the same during the surgery
or not. Because blood transfusion is rarely needed when the hemoglobin level of patient is
higher than 10g/dl during the surgery. Also, blood transfusion becomes obviously necessary if
hemoglobin levels drop to 6g/dl or lower during the surgery. Therefore, the accuracy of the
tool in assessing hemoglobin levels at this critical interval (6-10g/dl) is of greater
importance.6,7 Experimental studies have confirmed that accuracy could change in different
hemoglobin levels5,8, and with the passage of time.9 In addition, it has been reported that
after significant blood loss or even following injection of blood, the average difference
between SpHb and laboratory might change, as well. 5,8 Since the accuracy of this assessment
depends on the extent of perfusion of the organ on which the probe is placed, methods that
enhance blood circulation in the organ (including local heating of the organ and use of
digital nerve blocks (DNB), proposed to increase its accuracy.10, 11 In a study conducted in
2012 by Miller et al. on 20 patients undergoing spinal surgery, DNB was performed using
lidocaine. The differences between SpHb and lab hemoglobin were recorded first after
injection, and then at almost hourly intervals. These differences were compared to data from
another study without DNB. Thirty seven percent of data in the intervention group and 12% of
data in the control group was considered as "very accurate". Results of this study showed
that DNB increased perfusion indices and SpHb accuracy.10 Following the previous study,
Miller et al. carried out a study in 2014 to compare the effects of DNB with lidocaine and
bupivacaine on 12 healthy volunteers. DNB was performed on two identical fingers on both
hands of the volunteers. Lidocaine was used on one hand and bupivacaine on the other one.
Results of this study showed that both lidocaine and bupivacaine raised the perfusion indices
and temperatures of the fingers. The duration and extent of the rise in temperature were more
for bupivacaine, and there was a direct correlation between changes in perfusion index and
those in SpHb.11 Since, the previous study data had been gathered from healthy individuals,
this study aims at investigate the effects of DNB on the accuracy SpHb in patients undergoing
surgery.
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