Neonatal Clinical Trial
Official title:
Evaluation of a Point of Care Analyzer for Lactate Dehydrogenase, HildaNeo, as Support for Decisions When Admitting Newborn to the Neonatal Wards at NPH
The immediate newborn period is the period of highest morbidity in life. Early signs of
serious disease are often vague and difficult to interpret for the non- specialist.
Screening lists of clinical signs are useful but have unsatisfactory specificity or
sensitivity, cover only one or two diseases, and are complicated to handle in low resource
settings.
In critically ill newborns, organ failure to one or multiple organ systems is frequently
seen due to inadequate circulation to the tissues. Critical disease will cause hypoxia
ischemia of the cells in the affected organs followed by energy deficiency. Independently of
the condition causing the energy deficiency this will start a series of events, which
initially cause a leaking cell membrane leading to that intracellular components, i.e. the
enzyme Lactate dehydrogenase (LDH), will leak out into the blood. Previous research in
newborns suggests that LDH is a clinically interesting early predictor of serious illness
and may thus serve as an important complement to the clinical examination. If the LDH level
is elevated the health care personnel will realize that something is wrong and call for
appropriate measures.
Today LDH analysis is performed at the Dept. of Clinical Chemistry with an inexpensive and
accurate method. However, this method needs relatively large blood volumes and the delay
between blood sampling and results is rather long, often several hours. In addition LDH is
sensitive to hemolysis, which is quite common in blood sampling in newborns. When this is
detected at the laboratory a new sample will be needed, thus delaying the result even more.
Also, smaller health care facilities rarely have the laboratory equipment needed for the
analysis of LDH.
The Swedish company Calmark Sweden AB is now launching a point-of-care technology for LDH
analysis called "Hilda Neo". LDH is analyzed on an easy-to-use consumable test card together
with an "App" on an ordinary smartphone (in the planned study, iPhone 4S). The result is
presented within minutes and presence of hemolysis will be simultaneously detected on the
device.
The investigators speculate that the use of such a LDH test could serve as a diagnostic help
for health-care staff in Vietnam in making the decision when to send a potentially sick
newborn to a higher level neonatal unit (in this case the NICU at NPH, Hanoi)
Patients and Methods At admission to NPH, newborn (GA >32 w, ≤36h old) infants referred to
NPH with suspect or probable clinical signs of illness for which the physician on call
considers that a blood sample is needed will be included in the study when a doctor taking
part in the study is present at the ward. When a blood test is indicated, around 2 ml of
blood is routinely drawn including an extra 0.1 ml blood for analysis of LDH using the Hilda
Neo card.
When an infant fulfils the inclusion criteria the physician on duty will open a downloaded
"App" on the provided smartphone and take a photo of the first page of the study protocol
including the patients study number time of birth, and the result of the clinical
investigation on a simple clinical score protocol. Then the physician presses a "randomise
button" on the smartphone to randomise to using the Hilda Neo card or to routine care. If
randomised to the Hilda Neo card use the "app" gives instructions how to use the card and
guides through the different steps of the test. The result of the LDH test will be presented
to the physician immediately at the point-of-care and can be used in the clinical decisions.
To prepare for a following study of the usefulness of LDH when deciding if a baby is ready
for transfer from the NICU to ordinary care all included infants will have an LDH test at
the routine clinical laboratory daily when other blood samples are drawn. The investigators
believe that two LDH tests at 6 - 24 hour intervals are needed for that question. The reason
for using two tests with an interval is that a high single LDH value can be expected in a
large number of the infants because of the preceding disease while a decreasing value might
be a better predictor of an improving status.
An evaluation protocol is filled in by the neonatologist in the ward 80-96h after admission
or, if earlier, at discharge or death. The classification of the protocols into "need for"
and "no need for intensive care resources" will be done independently by two senior
neonatologists, both blinded to the LDH results from the Hilda card and the routine clinical
laboratory.
The outcome that will be reported is the number of patients admitted to correct level of
care, NICU or level 2 unit, in the two groups the admitting doctor has or has not access to
plasma LDH respectively.
The definitions of correct or not correct admission level were:
1. Admitted to NICU care: correct decision=The patient did fulfil the criteria for
referral to NICU during the first 80 and 96h after admission.
2. Admitted to NICU care: not correct decision=The patient did not fulfil the criteria for
referral to NICU during the first 80 to 96h after admission.
3. Admitted to level 2 unit: correct decision=The patient did not fulfil the criteria for
referral to NICU during the first 80 to 96h after admission.
4. Admitted to level 2 unit: not correct decision= The patient did fulfil the criteria for
referral to NICU between 80 and 96h after admission The classification of the protocols
into "fulfil or not fulfil the criteria for intensive care resources" was done
independently by two senior neonatologists, both blinded to the LDH results from the
Hilda card and the routine clinical laboratory.
The criteria for "fulfil the criteria for intensive care resources" were that shock-,
ventilator-, CPAP- treatment, blood exchange, parenteral nutrition or other procedures
demanding NICU capacity in the actual setting were performed during the first 80 - 96 hours
after admission.
For calculation of the number of patients needed for the study outcome "right decision" in
relation to "wrong decision" will be used, see below under Power.
The results will be recorded on the paper protocol forms, which are kept with the clinical
record of the patient. The results will also be kept as a photo using the Smart phone App
where it can be read only until the picture has been sent to the register. When the picture
comes to the register it is identified only by its study number. Name and identity together
with the study number is taken from the patient record to a separate register, which is
securely kept by one authorized person in order for future supplementary information. The
data recorded for the study are those normally recorded for a NICU patient and the doctors
evaluation of the Hilda card.
The de-identified protocols will be saved, processed and analysed with the statistical
program SPSS. Only persons involved in the study will have access to the data registered.
Based on going (Itzel et.al) and previously conducted research a LDH activity exceeding
600U/L will be considered as increased.
Power calculation In the investigators earlier study about 75% of the babies admitted to the
NICU did not need intensive care procedures during the first week. To detect a reduction
from 75 to 50% according to outcome above would need 58 patients in the test and the control
group respectively. The control group here is the group that is not admitted to the NICU
ward but to the ordinary care ward.
If there are technical or other problems with the Hilda Neo test that might influence the
primary outcome the study will include 58 babies after the problem has been solved.
The background factors and the criteria for need of intensive care that will be noted are
presented on the protocols, (n= 120+20 patients)
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Diagnostic
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