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NPICU – Neonate and Paediatric Monitoring & Central Lines

The first 28 days of life are the most crucial for survival. While on a global scale neonatal mortality is declining, 54% of the total deaths amongst Europe’s children under 5 occur in neonates. This sheds a light on the importance of adequate monitoring and care at the NPICU neonatal and paediatric intensive care unit.

Local causes of mortality in children under 5 years of age include:

prematurity
congenital anomalies
non-communicable diseases (eg. heart disease, cancer, chronic respiratory disease, and diabetes)
birth asphyxia (failure to establish breathing at birth) and trauma
acute lower respiratory infections
sepsis
meningitis

The NPICU – Neonatal & Paediatric Intensive Care Unit

Malta’s only NPICU caters for limitless admissions of neonates and children up to 3 years of age, with the majority of these young patients being premature babies (babies born before the 37th week of gestation) and neonates (from birth to 28 days of age).

Classification of care in the NPICU is as follows:

Intensive Care – 1 or 2:1 care ratio
High Dependency Care – 1:1 care ratio
Special Care – 1:2 care ratio
Nursery – 1:4 care ratio

Apart from being allocated according to experience and training needs, NPICU nurses may need to act as transport team members, Basic Life Support educators, and link nurses.

Why Do Neonates Require Intensive Care?

Maternal Factors

premature membranes rupture
multiple pregnancy
hypertension
diabetes
drug or alcohol exposure
sepsis
bleeding
too much or too little amniotic fluid

Delivery Factors

foetal distress
birth asphyxia
breech delivery
meconium
nuchal cord (umbilical cord wrapped around baby’s neck)
ventouse (vacuum cup) / KIWI (most common type of ventouse that does not use a suction machine)
cesarean

Baby factors

CHANGES AT BIRTH:

independent breathing
foetal to neonatal circulation
metabolic adaptation to thermoregulation, glucose homeostasis, and fluid balance

POST-NATAL CHANGES:

baby’s lungs become the primary respiratory organs
lungs’ blood vessels respond to oxygen increase from vasodilation, promoting blood flow to the lungs
increase in oxygen causes heart ducts to close, leading to neonatal circulation to establish itself

NORMAL CHANGES:

during the baby’s first breaths, air replaces the fluid within the lung

THERMOREGULATORY CHANGES:

at birth, intrauterine heat reservoir and heat exchange through the placenta is lost
following birth, thermal stability is normally achieved independently, as they adapt to the new environment by the non-shivering thermogenesis process
the newborn baby should be kept warm and dry straight from delivery, since becoming cold causes the brown fat stores to become depleted, leading to neonatal hypoxia and hypoglycaemia

GLUCOSE HOMEOSTASIS CHANGES:

at birth, the baby stops obtaining glucose from the mother through the placenta, and starts to produce glucose independently, which, following birth, may cause a decrease in the baby’s blood glucose levels
normally, if kept warm and is fed appropriately within the first few hours after birth, a full term baby is able to control his/her own blood glucose levels within normal limits

FLUID BALANCE CHANGES:

at birth, fluid balance undergoes significant adaptive changes, including extra-cellular fluid contraction following delivery, where neonates may lose up to 10% of their total birth weight

Premature vs Full Term Babies

Premature babies commonly experience respiratory issues, including:

respiratory distress syndrome (due to surfactant deficiency)
chronic lung disease of prematurity (caused by oxygen dependency and persistent inflammatory changes of the lungs past 28 days following birth)
apnoea of prematurity (due to immature brain stem)

NPICU Admission Guidelines

23 weeks-35 weeks or more than 42 weeks gestation
birth weight of 450g – 2kgs, SGA (small for gestational age) and LGA (large for gestational age)
respiratory issues – apnoea, cyanotic episodes, need for positive pressure ventilation, concerning respiratory distress, tachypnoea for over 1hr, perinatal asphyxia, and meconium aspiration
gastrointestinal issues – feeding problems, bile-stained vomiting, signs of obstruction
infection – sepsis suspicion, herpes, chlamydia, group B streptococcus
malformations
congenital heart defects
infants of mothers with diabetes
hypoglycaemia
seizures
surgical complications
neonatal abstinence syndrome – conditions caused when a baby withdraws from certain drugs he’s been exposed to in the womb prior to birth
hyperbilirubinaemia – higher-than-normal amount of bilirubin in the blood, causing jaundice
monitoring

Monitoring

CONTINUOUS MONITORING of:

heart rate
respiratory rate
arterial blood pressure
pulse oximetry
capnography
cerebral function monitoring

INTERMITTENT MONITORING of:

blood gases
serum bilirubin
blood glucose
others as needed eg. haemoglobin, electrolytes, etc.

Central Lines

CVCs (central venous cannulas) can be used for longer than PVCs (peripheral venous cannulas). IV treatments as well as higher concentration IV fluids and TPN can be administered via a CVC with less irritation and damage to the veins.

UMBILICAL CATHETERS

A umbilical cord typically has 2 arteries and 1 vein. Catheters are placed into the blood vessel using sterile technique, followed by a confirmation x-ray to determine position.

An umbilical arterial catheter is used for:

blood sampling
ABGs
invasive blood pressure monitoring
DO NOT ADMINISTER IV FLUIDS IN AN ARTERIAL CATHETER!

An umbilical venous catheter is used for:

IV fluid administration
IV treatment
exchange transfusion
emergency access during resuscitation

Retrieved from https://clipart.me/free-vector/umbilical-cord on 26th January 2023

PICC LINE

A PICC line – Peripherally Inserted Central Catheter – is a thread-like tube which is inserted in a small vein and threaded into a larger vein leading to the Superior Vena Cava.

when handling the baby, the nurse should be extra careful as to not pull the catheter
infusion lines should be carefully changed on alternate days using a sterile technique

NOTE: Neonatal PICC lines SHOULD NOT be used for blood sampling!

TUNNELED LINES

a tunneled catheter is a catheter inserted under the skin, exiting on the chest a.k.a. Hickman
the line is anchored in place by the Dacron cuff, helping to prevent infection

NON-TUNNELED LINES

femoral line
jugular
subclavian
brachiocephalic

INTRA-OSSEOUS LINES

TIVAD – TOTALLY IMPLANTED VENOUS ACCESS DEVICE

Totally Implanted Venous Access Devices are only used in older children
accessed and de-assessed by a certified nurse with a special needle – once needle is in place, it can be used like any other central line

PERIPHERAL ARTERIAL LINES

used for frequent blood sampling
provide accurate invasive blood pressure monitoring
high risk

Retrieved from https://emedicine.medscape.com/article/1999586-technique on 26th January 2023

CENTRAL LINE MONITORING

Central line monitoring is very important since signs and symptoms may be indicating line blockages, vein irritation, thrombus, migration, and CLABSI (central line-associated bloodstream infection). Signs and symptoms that the nurse should watch out for include:

extremity discolouration
bleeding
swelling
extravasation
dislodgement
signs of sepsis

Infiltration – Retrieved from https://europepmc.org/article/pmc/6082416#free-full-text on 26th January 2023

Extravasation – Retrieved from http://www.worldwidewounds.com/1997/october/Neonates/NeonatePaper.html on 26th January 2023

Ischaemia & Necrosis following Peripheral Arterial Cannulation – Retrieved from https://www.semanticscholar.org/paper/Analysis-of-characteristics-of-peripheral-arterial-Kim-Lee/973dec4ffd825f9c336134d16004935b15a83921 on 26th January 2023

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IV Complications – Signs & Symptoms, Prevention and Management

More than 90% of hospitalised patients receive some form of IV therapy. Unfortunately, about 1/5 of these patients experience IV complications due to lack of administration care and adequate monitoring.

Phlebitis

Phlebitis is the inflammation of the vein which is caused whenever the used cannula is too large for the chosen vein, or when the cannula is not secured in place. Using the smallest cannula possible depending on the patient and the fluid being administered will reduce the chance of phlebitis to occur during IV therapy administration.

Signs & Symptoms:

warm to the touch around the insertion site
redness and/or tenderness at insertion site or along the vein
bulge over the vein

Management:

at first sign or symptom of phlebitis stop IV infusion immediately
apply warm compresses onto the area
if further IV infusion is required, insert a new catheter into a different vein and into a different site, preferably choosing a bigger vein and opposite arm
document patient condition and management

Air Embolism

Air Embolism a.k.a. gas embolism occur when one or multiple air bubbles enter the blood stream through a vein or artery and blocks it. Air embolism is one of the most dangerous IV complications as it can cause death.

Signs & Symptoms:

blue skin hue
anxiety
dizziness
nausea
headache
muscle pain
joint pain
hypotension
dyspnoea
gasp reflex
persistent cough
tachypnoea
respiratory failure
shock
confusion
syncope / loss of consciousness
seizures
stroke
syncope

Management:

if air embolism is noted, flush or infusion administration should be stopped immediately and the rotating haemostatic valve (RHV) should be fully opened
if patient is unresponsive administer first aid, prioritising airway (A), breathing (B) and circulation (C) and if necessary resuscitate. Once resuscitated and stabilised, patient should be administered 100% oxygen treatment through a non-rebreather mask to ensure full body oxygen perfusion.
document patient condition and management

IV Site Infection

A localised infection around the IV cannula site can be prevented by use of veins that are not small or fragile, not in extremities, not in areas that may need to be flexed and not in veins situated in sites with oedema or neurological impairment. Adherence to IV therapy safety procedures, maintaining a clear, dry dressing and frequent monitoring can help lessen the chance of infection.

Signs & Symptoms:

redness
swelling
burning sensation
discomfort
discharge
increase in temperature

Management:

when noted, infusion should be stopped immediately
remove cannula
clean site of infection
administer antibiotics as prescribed
monitor patient’s vital signs
document patient condition and management

Flare Reaction

Venous flare reaction is usually a localised allergic response to the administration of an irritant via IV. To minimise risk for a flare reaction, patient’s allergy history should be taken prior to therapy administration, and administration should ideally happen slowly through an infusion pump. Additionally, monitor patient during infusion administration for any pain or discomfort.

Signs & Symptoms:

redness along the vein or at cannula site
tenderness
itchiness
warm to the touch
swelling
hypotension
anaphylaxis

Management:

stop irritant administration immediately
administer antidote if available
monitor for worsening of patient condition
document condition and management

Extravasation

Extravasation is the unintentional leakage of vesicant fluids or medications into the vein’s surrounding tissue. It can be prevented by ensuring proper drug dilution as per recommended guidelines prior to IV administration.

Signs & Symptoms:

discomfort, blanching and/or burning sensation at IV site
cool sensation at IV site
swelling at or right above IV site
blistering
skin sloughing

Management:

stop IV therapy administration immediately by disconnecting IV tube from cannula
aspirate any residual drug
administer antidote if available
document patient condition and management

Infiltration

Infiltration is the accumulation of fluid in the IV surrounding tissue caused by the needle puncturing the vein wall or by eventual needle misplacement. Stabilising chosen vein extremity and taping cannula firmly to the skin can help prevent infiltration.

Signs & Symptoms:

little or no flow of IV infusion or bolus
cool to the touch
hard to the touch
swollen and pale infusion site
fluid leakage from infusion site
pain, tenderness, irritation and/or burning sensation at infusion site

Management:

stop infusion immediately and remove cannula
elevate effected extremity
apply warm compresses to encourage absorption (apply ice to the swelling if noticed within 30 minutes of infiltration onset)

Thrombophlebitis

Thrombophlebitis is an inflammation that causes the formation of a blood clot, which blocks one or more veins, usually in the legs. Superficial Thrombophlebitis occurs when the affected vein is closer to the surface of the skin, whilst Deep Vein Thrombosis (DVT) occurs when the affected vein is at a deeper level.

To prevent thrombophlebitis, one needs to avoid prolonged periods of standing and elevate legs when sitting down. Improving blood circulation helps. This can be done by regular exercise.

Signs & Symptoms:

sudden or gradual swelling in the affected area
tenderness and/or pain in the affected area
redness or discolouration in the affected area
warm to the touch

Management:

apply heat to affected area
elevate
use of NSAIDs
wear compression stockings

Haematoma

A haematoma is leakage of blood from the blood vessel into the surrounding soft tissue. As one of the possible IV complications, a haematoma occurs when an IV catheter passes through multiple walls of a vessel, or when not enough pressure is applied to an IV site after catheter removal.

Signs & Symptoms:

redness
swelling
pain
disfiguring bruises

Management:

during the first 24hrs from the formation of a haematoma apply ice packs wrapped in cloth for 20 minutes (you can repeat this multiple times)
after the first 24hrs from the formation of a haematoma apply warm, moist compresses to the affected site for 20 minutes (you can repeat this multiple times in the second 24hrs post haematoma formation)
do not massage affected area
compress and elevate if affected area is a limb

Electrolyte Imbalance

Electrolytes are minerals that carry an electrical charge in the blood, tissues, organs and everywhere within the body. An electrolyte imbalance is the result of too much or too little water.

Signs & Symptoms:

fatigue
lethargy
nausea and vomiting
diarrhoea or constipation
dysrhythmias
tachycardia
convulsions or seizures

Management:

monitor for dehydration
monitor ECG for prolonged QT interval
IV fluids
diet changes (eating more foods containing lacking electrolyte)
check current drug prescriptions for any possible replacement need (eg. loop diuretics may be changed to potassium-sparing diuretics in the case of loss of potassium)

Acute Hypervolaemia

Retrieved from https://en.wikipedia.org/wiki/Edema on 5th April 2021

Hypervolaemia is a condition in which there is excess fluid in the blood. Whilst an adequate amount of water is necessary for the body to function well, excessive fluid leads to an imbalance, resulting in complications.

Signs & Symptoms:

oedema in the ankles, feet, face and wrists
body discomfort
cramping
headaches
bloating
hypertension
dyspnoea
tachycardia
cardiomegaly
cardiovascular problems

Management:

watch fluid intake
minimise sodium intake
monitor weight and report any changes and swelling immediately
diuretics
if present manage other existing comorbidities such as heart failure and chronic kidney disease to minimise hypervolaemia

Anaphylaxis

Anaphylaxis is a severe immediate hypersensitive reaction which is usually triggered by an allergen. Identifying the signs and symptoms of an anaphylactic shock is crucial as this is a life-threatening situation requiring immediate treatment.

Signs & Symptoms:

hives / itching
flushed or pale skin
dizziness or fainting
hypotension
bronchoconstriction / swollen tongue and/or throat leading to wheezing and dyspnoea
weak rapid pulse

Management:

epinephrine shot administered immediately
maintain a patent airway
if required, antihistamines and / or steroids may also be administered
oxygen administration
bronchodilators
monitor blood pressure, heart rate and oxygen saturation

Speed Shock

Retrieved from http://www.cwladis.com/math104/lecture6.php on 5th April 2021

Speed Shock is a systemic reaction to a drug being administered rapidly, leading to toxicity onset. An infusion device ensures that a drug is administered at the recommended rate.

Signs & Symptoms:

headache
flushed face
chest tightness
irregular pulse
syncope
loss of consciousness
shock
cardiac arrest

Management:

Stop IV immediately
Monitor ABC’s (Airway, Breathing, Circulation)
Report reaction
Do not leave patient unattended

Retrieved from https://www.pedagogyeducation.com/Class-Catalog/Infection-Control/Goal-Zero-Catheter-Related-Blood-Stream-Infections.aspx on 5th April 2021

Catheter Related Bloodstream Infection (CRBSI) is a complication resulting from the use of IV catheters. Septicaemia can also result from a CRBSI, causing a prolonged hospital stay. CRBSI can be prevented using an aseptic non-touch technique (ANTT) during insertion, use of PPEs, disinfecting external surfaces of the catheter hub and connecting ports, and removing and/or replacing at the appropriate time.

Signs & Symptoms:

fever
chills
hypotension
signs of infection proximal to the insertion site of the PVC (peripheral venous cannula)

Management:

removing catheter immediately when a CRBSI is noted
administrating antibiotics
maintaining infection control

Adverse Drug Reactions

An adverse drug reaction (ADR) is a harmful or unpleasant reaction resulting from an IV infusion which can be caused by a single or a combination of drugs. An ADR can be prevented by avoiding consumption with alcohol, reading instructions and consuming medication only as prescribed, and taking note of any previous reactions to the same ingredients. Avoid taking over-the-counter medications with vitamins.

Signs & Symptoms:

phlebitis
infiltration
extravasation
speed shock
shock
cardiac arrest
venous spasms (presenting as cramping and pain above IV site)

Management:

stop drug administration immediately
do not discard syringe…keep for further investigation
monitor vital signs
provide reassurance
perform CPR or administer Oxygen if required

Below you can find a collection of videos that can help provide a more visual approach to IV Complications.

IV Complications

IV Complications: Phlebitis Animation

IV Complications: Air Embolism

IV Flare Reaction