In a critical care setting, the main aim is always oxygen perfusion; perfusion = survival = healing. Acid Base Balance a.k.a. pH balance, is the level of acids and bases in the blood at which the human body functions at its best. A pH between 7.35 and 7.45 is considered to be an optimum pH level since it promotes good oxygen perfusion throughout the body.
A cell without oxygen can compensate with the help of anaerobic respiration. This however produces lactate a.k.a. lactic acid. Thus, anaerobic respiration can only provide compensation for a short period of time.
Physiological pH values in the human body: retrieved from https://www.researchgate.net/deref/https%3A%2F%2Fdoi.org%2F10.1080%2F17425255.2021.1951223 on 18th November 2022
In normal circumstances, the body aims to maintain a healthy balance between the acid and alkaline within. This process is mostly active thanks to the lungs and the kidneys, both of which play an important role in maintaining the body’s pH balance. This means however, that for individuals with compromised kidneys or lungs, compensating pH imbalance becomes even more difficult.
An acid is a substance which is chemically able to donate a hydrogen ion to another substance. Acids, which have a pH <7, are formed by free H+ ions and carry a positive electrical charge a.k.a. cations.
A base a.k.a. buffer is any substance which is chemically able to accept a hydrogen ion. Most bases are insoluble, however, ones that dissolve in water are also called alkali. Alkalis are formed by OH– ions a.k.a. Hydroxyl ions. They have a pH of >7 and carry a negative electrical charge a.k.a. anions.
pH is the measure of H+ (hydrogen ion) concentration in water.
pH is controlled by the following active organs:
LUNGS: excrete carbon dioxide in the form of carbonic acid (H2CO3), and dissociates into H2O + CO2 for excretion.
KIDNEYS: control bicarbonate excretion; the kidneys can form ammonia which combines with acid products of protein metabolism for excretion.
PLASMA PROTEINS: able to bind both to free H+ and OH– ions, preventing changes in the pH (fine-tuning pH levels that are still within their normal range i.e. between 7.35-7.45).
Bicarbonate and pH Balance
Normal Blood Gases Values
Arterial
Venous
pH
7.35-7.45
7.33-7.43
PO2 (Partial Pressure of Oxygen)
80-100mmHg / 11-15KPa
35-49mmHg / 4.5-6KPa
PCO2 (Partial Pressure of Carbon Dioxide)
35-45mmHg / 4.5-6.1KPa
41-51mmHg / 5-6.5KPa
SO2 (Oxygen Saturation)
95-100%
65-80%
HCO3 (Bicarbonate)
22-26mmol/l
24-28mmol/l
Base Excess
-2 to 2
0 to 4
NOTE: In the UK, PaCO2 and PaO2 are normally measured in kPa (kilopascal) whereas in Malta they are usually measured in mmHg (millimetres of mercury). 1kPa = 7.5mmHg.
pH – acidity or alkalinity measurement based on the hydrogen ions present
PaO2– partial pressure of oxygen which is dissolved in arterial blood
SO2– arterial oxygen saturation
PCO2– the amount of carbon dioxide dissolved in arterial blood
HCO3– the amount of bicarbonate in the blood
Base Excess – the amount of excess or insufficient level of bicarbonate in the system
Retrieved from http://medcraveonline.com/JACCOA/JACCOA-05-00199.pdf on 26th May 2021
Retrieved from https://www.slideshare.net/kerolus/basic-abg-notes on 26th May 2021
Retrieved from https://cardiopulmnaz.weebly.com/arterial-blood-gases-abgs.html on 26th May 2021
Restoring Acid-Base Balance Through Compensation
The human body naturally attempts to keep the pH within normal range by restoring acid-base balance through the opposite unaffected system. For example, if the respiratory system is affected, the metabolic system attempts to compensate so as to restore normal pH.
Respiratory Compensation happens 2-4 HOURS following an established metabolic process.
Metabolic Compensation happens 2-4 DAYS following an established metabolic process.
ABGs Interpretation Algorithm
Retrieved from https://www.yournursingtutor.com/wp-content/uploads/2018/08/ABG-Decision-Tree-Freebie.pdf on 18th November 2022
Acid Base Balance Disorders
CO2 builds up and reacts with the water in the blood, forming carbonic acid – Retrieved from https://healthjade.net/respiratory-acidosis/ on 26th May 2021
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Tracheostomy is a procedure in which an artificial opening a.k.a. stoma is created at the level of the second or third cartilaginous ring from where the tracheo-bronchial tree is accessed and a tracheostomy tube is inserted. Proper tracheostomy nursing care in the critical care setting ensures patient safety.
Retrieved from https://entokey.com/laryngeal-anatomy/ (left) and https://www.pinterest.com/pin/83387030589729256/ (right) on 1st November 2022
Tracheostomy indications
airway obstruction in relation to problems with tongue, pharynx, larynx, trachea and oesophagus
anaphylaxis
foreign body
facial trauma
facial or respiratory burns
prior to extensive head and neck surgery
vocal cord paralysis
sleep apnoea
instable cervical spine
inflammation
tumor
congenital anomalies (structural or functional anomalies which occur in-utero)
NOTE: Tracheostomy is preferred as a prolonged airway maintenance and ventilation method. It is also used in cases of failed and/or repeated intubation, following intubation complications, and where there is need for deep secretion removal.
Tracheostomy Advantages
less restricting for the patient
enables swallowing
enables better communication
less sedation requirement
allows better mouth hygiene
helps avoid upper airway complications related to ETT use
easier secretion removal
reduces anatomical dead space (shorter, wider and less curved tube = better breathing = quicker weaning from ventilator use)
Tracheostomy Preparation & Surgical Procedure
explain tracheostomy procedure to the patient and accompanying relatives
gain operation consent
ensure availability of needed drugs (sedatives/analgesics/muscle relaxants), blood in reserve, suction equipment, cautery machine (helps in cutting and stopping bleeding immediately and effectively), and procedure trolley
help patient in supine position with blanket roll between shoulder blades to ensure neck is adequately exposed.
an incision is made between the sternal notch and cricoid cartilage
a midline vertical incision is made to divide strap muscles
thyroid isthmus between ligatures is divided
cricoid is elevated along with the cricoid hook
an incision is made through the tracheal wall
a tracheostomy tube is inserted while the endotracheal tube is withdrawn
cuff is inflated
keyhole dressing is applied
tube is secured either with tape around the neck or with stay sutures
tube is connected to the ventilator tubing
Retrieved from https://www.surgeryencyclopedia.com/St-Wr/Tracheotomy.html on 1st November 2022
Percutaneous Dilational Tracheostomy
As seen above, a surgical tracheostomy requires a surgical dissection to be made down to the trachea, the creation of a window in the trachea with the insertion of a tracheostomy tube for ventilation…
Compared to surgical technique, the percutaneous dilational tracheostomy (PDT) uses a modified Seldinger technique where the trachea is accessed with a needle and then a guidewire is inserted. The tracheostomy tube is introduced over the guidewire after dilation.
Rashid & Islam, 2017
Thus, a percutaneous dilational tracheostomy avoids surgical incision, is less traumatic, and carries a lower bleeding risk.
a large bore needle is inserted into the tracheal lumen between the 2nd and 3rd ring
a flexible guidewire is then inserted
serial dilations are made
tube is inserted
NOTE: Ideally, a percutaneous dilational tracheostomy are done under ultrasound or bronchoscopy guidance. The procedure is contraindicated in patients with goitre, obesity, and acute upper airway obstruction.
Tracheostomy Complications
During placement of tracheostomy, arising complications may include:
laryngeal nerve injury (may cause hoarseness, difficulty in swallowing or breathing, or loss of voice)
vagal nerve stimulation (may lead to bradycardia, hypotention, or cardiac arrest)
incorrect placement
Post-op complications following a tracheostomy may include:
haemorrhage
aspiration
wound infection
infection in the trachea
infection in the lungs
tube obstruction caused by blood or secretions
tube displacement
subcutaneous emphysema (usually this is solved without any interventions)
Late complications related to tracheostomy use may include:
tracheal stenosis (abnormal narrowing of the trachea which restricts the patient’s ability to breathe)
tracheo-oesophageal fistula (abnormal connection between the trachea and oesophagus which causes swallowed liquids or food to be aspirated into the lungs)
tracheoinnominate artery erosion by cuff or tip of tube (may require resuscitative and operative measures)
stoma does not close following removal of tube
overgranulation and scarring
Types of Tracheostomy Tubes
Retrieved from https://www.exportersindia.com/product-detail/white-fenestrated-tracheostomy-tube-6433292.htm (left) and https://www.magonlinelibrary.com/doi/abs/10.12968/bjon.2019.28.16.1060 (right) on 1st November 2022
Cuffed Tube with Disposable Inner Cannula – Used to obtain a closed circuit for ventilation.
Cuff should be inflated when using with ventilators
Cuff should be inflated just enough to allow minimal airleak
Cuff should be deflated if patient uses a speaking valve
Cuff pressure should be checked twice a day
Inner cannula is disposable
Retrieved from https://www.hopkinsmedicine.org/tracheostomy/about/types.html on 12th November 2022
Cuffed Tube with Reusable Inner Cannula – Used to obtain a closed circuit for ventilation.
Cuff should be inflated when using with ventilators
Cuff should be inflated just enough to allow minimal airleak
Cuff should be deflated if patient uses a speaking valve
Cuff pressure should be checked twice a day
Inner cannula is not disposable; you can reuse it after cleaning it thoroughly
Retrieved from https://www.hopkinsmedicine.org/tracheostomy/about/types.html on 12th November 2022
Cuffless Tube with Disposable Inner Cannula – Used for patients with tracheal problems and for patients who are ready for decannulation.
Save the decannulation plug if the patient is close to getting decannulated
Patient may be able to eat and may be able to talk without a speaking valve
Inner cannula is disposable
Retrieved from https://www.hopkinsmedicine.org/tracheostomy/about/types.html on 12th November 2022
Cuffed Tube with Reusable Inner Cannula – Used for patients with tracheal problems and for patients who are ready for decannulation.
Save the decannulation plug if the patient is close to getting decannulated
Patient may be able to eat and may be able to speak without a speaking valve
Inner cannula is not disposable; you can reuse it after cleaning it thoroughly
Retrieved from https://www.hopkinsmedicine.org/tracheostomy/about/types.html on 12th November 2022
Fenestrated Cuffed Tracheostomy Tube – Used for patients who are on the ventilator but are not able to tolerate a speaking valve to speak.
There is a high risk for granuloma formation at the site of the fenestration (hole)
There is a higher risk for aspirating secretions
It may be difficult to ventilate the patient adequately
Retrieved from https://www.hopkinsmedicine.org/tracheostomy/about/types.html on 12th November 2022
Fenestrated Cuffless Tracheostomy Tube – Used for patients who have difficulty using a speaking valve.
There is a high risk for granuloma formation at the site of the fenestration (hole)
Retrieved from https://www.hopkinsmedicine.org/tracheostomy/about/types.html on 12th November 2022
Metal Tracheostomy Tube – Not used as frequently anymore. Many of the patients who received a tracheostomy years ago still choose to continue using the metal tracheostomy tubes.
Patients cannot get a MRI
One needs to notify the security personnel at the airport prior to metal detection screening
Retrieved from https://www.hopkinsmedicine.org/tracheostomy/about/types.html on 12th November 2022
CUFFED VS NON-CUFFED VS FENESTRATED
Retrieved from https://www.mountsinai.org/files/MSHealth/Assets/HS/Care/ENT/General/TracheostomyEducationPatientsCaregivers2019.pdf on 1st November 2022
SINGLE VS DOUBLE TUBE
Double lumen tubes contain an inner cannula which can be removed for cleaning.
Retrieved from https://www.jcvaonline.com/article/S1053-0770(15)00077-4/fulltext on 2nd November 2022
TRACHEOSTOMY VS LARYNGECTOMY
Retrieved from http://sinaiem.org/foam/dont-fear-the-tracheostomy/ on 2nd November 2022
SHILEY TUBE
Upper Airway Bypass Effects
In normal upper airway functions there is humidification, warming and filtration of inspired air, ability to taste, smell and swallow, speech production by the passing of exhaled air through the larynx, and involvement in the cough reflex.
When bypassing the upper airway, lack of humidification leads to impaired mucociliary function, thicker secretions which can easily cause tube obstruction, as well as atelectasis (partial or full lung collapse) and infection. Similarly, air below body temperature may cause bronchoconstriction, reduced air flow, decreased PO2 (partial pressure of oxygen) and decreased SaO2 (oxygen saturation of arterial blood).
Humidification
Requirements for optimal gas exchange, which are in normal circumstances achieved through the upper airway, include:
a temperature of 37 degrees celsius
100% humidity
filtered air
Adequate humidification may reduce the need for suctioning, thus, in situations where the upper airway is bypassed by an ETT or tracheostomy, an external method providing warmth, humidity and filtration is needed.
Through an external humidification system, inspired gas is passed over heated water with a set temperature of about 60 degrees celsius. As the air passes along the tubing, it cools down to around 37 degrees celsius when reaching the patient.
Although this system provides a setting similar to what is required for optimal gas exchange, it poses a couple of problems: it requires equipment care, it restricts patient mobility, and it may also become an infection source for the patient.
The HME Filter – Heat Moisture Exchanger
HME filters a.k.a. heat moisture exchanger filters are devices used in patients who are mechanically ventilated to help prevent mucus plugging and endotracheal tube occlusion due to lack of humidification.
HMEs are made of hydrophylic material which retains heat and moisture in exhaled air, which are then recycled in subsequent inspirations, following filtration of inspired air.
HMEs improve patient mobility and lower risk of infection. However, they can still become easily blocked by secretions, and so, require frequent filter changes (usually changed within a couple of days based on manufacturer’s recommendations) or even cessation of use in case of profuse secretions.
Retrieved from https://www.atosmedical.ca/support/heat-and-moisture-exchanger-hme/ on 2nd November 2022
Suctioning in Airway Management
Secretions are cleared by coughing under normal conditions. Cough involves pressure build-up in the lungs which depends on closure of the glottis. The use of a tube prevents the patient from increasing enough abdominal pressure to produce a cough that clears secretions in the airway. Additionally, the tube may also cause irritation which leads to increased sputum production.
Suctioning is a procedure that needs to be performed as often as required based on the patient’s individual needs, so as to clear secretions and maintain a patent tube.
suctioning should not be performed routinely but as needed
suctioning should be performed using a sterile technique
suctioning can be scary and unpleasant for the patient, thus, it needs to be performed with confidence and speed
Suctioning Indications
coughing
respiratory distress
increased peak airway pressure
decreased SaO2 (oxygen saturation of arterial blood) and PO2 (partial pressure of oxygen)
audible and/or visible secretions
suspected aspiration
signs of discomfort
Open Suctioning Procedure
explain procedure to the patient
provide the patient with hyperoxygenation at 100% oxygen
whilst keeping the catheter in its wrapper, attach it to suction tubing and switch it on
wear mask and sterile suction glove
insert catheter up to 1cm more than the tube length
apply suction on the way out; oropharyngeal cavity may also need suctioning
hyperoxygenate again
monitor patient
NOTES:
do not exceed 15 seconds in performing suctioning so as to prevent hypoxia
catheter width should not exceed half the tube’s diameter
catheters with multiple eyes produce less damage
negative pressure should not exceed 120mmHg
instillation of saline is not recommended any more, however, saline nebulisation may help in loosening secretions
Suctioning Complications
HYPOXAEMIA – arterial blood oxygen level lower than normal: happens due to the patient being disconnected from the oxygen source whilst suctioning is being performed; reduce risk by performing suctioning for not longer than 15 seconds and ideally using a closed suction system instead of the open suction one.
ATELECTASIS – complete or partial collapse of the entire lung or lobe of the lung: happens when excessive pressure is being used while suctioning; reduce risk by ensuring that pressure does not exceed 120mmHg.
BRONCHOSPASM – tightening of the muscles lining the bronchi a.k.a. airway tightening: happens due to catheter use stimulating the airway.
DYSRHYTHMIAS – abnormal or irregular heartbeat (especially bradycardiafollowing suctioning): happens due to hypoxaemia and vagal stimulation.
HAEMODYNAMIC CHANGES – increased blood pressure and intracranial pressure; reduce risk by avoiding suctioning in patients with head injury.
TRACHEAL MUCOSA TRAUMA – reduce risk by avoiding deep suctioning, large catheters and excessive pressure.
INFECTION – reduce risk by using strict aseptic technique and using a closed suction system. NOTE: send specimens for C+S if infection is suspected.
Closed Tracheal Suctioning Procedure
Using a closed tracheal suctioning procedure allows suctioning of the airways without the need for disconnecting the patient from the ventilator. This is done by attaching the suction catheter in plastic sleeve directly to the ventilator tubing.
Advantages:
maintains oxygenation and PEEP (Positive End Expiratory Pressure) during suction
reduces the risk of complications related to hypoxaemia
provides HCPs with protection from secretions
Disadvantages:
possible auto-contamination (reduce risk by cleaning catheter after each use and change every 24 hours)
inadequate removal of secretions
extra weight on ventilator tubings may cause an unintentional extubation
expensive
Cuff Management
The use of a cuff provides a seal in mechanical ventilation of a patient. This seal provides protection from gross aspiration. However, it does not offer complete protection from aspiration, and it may also disguise aspiration signs. Additionally, cuff exerts pressure on the oesophagus, anchoring the larynx, thus reducing laryngeal elevation. Considering all the above…
The patient with an inflated cuff should be kept nil-by-mouth!Provide needed nutrition through a nasogastric tube, a nasojejunal tube, gastrostomy, or jejunostomy.Important: assist the patient as needed to maintain oral hygiene!
Cuff used should be a high volume low pressure cuff. Cuff pressure should be checked at the start of every shift, after turning the patient, after physiotherapy, after dressing change and if a leak can be heard. Pressure should be kept between 15-25mmHg.
A low cuff pressure causes a drop in tidal volume due to leak of exhaled air around the tube, as well as possible aspiration of gastric content.
A high cuff pressure may create a fistula between the trachea and the oesophagus a.k.a. tracheoesophageal fistula, especially if a stiff nasogastric tube is being used on the patient. It may also cause obstruction of capillary blood flow within the tracheal wall, leading to pressure sore necrosis and tracheal stenosis following formation and healing of scar tissue.
Tracheostomy Communication Through Speaking Valves
In normal circumstances, speech is created by the passing of exhaled air through the vocal cords. Since tracheostomy tubes are inserted below the vocal cords, sound cannot be formed. This may cause the patient to become anxious and feeling isolated.
The nurse should provide reassurance to the patient by explaining that loss of sound being experienced is only temporary, and voice returns once the tracheostomy tube is removed. The nurse should also encourage the patient to use different ways of communication whilst with a tracheostomy tube is inserted, such as using electronic devices, paper and pen, or speaking valves.
Speaking Valve Use
When using a speaking valve, ensure that the patient has a good gag reflex and that he is using either a non-cuffed or a fenestrated tube; if patient is using a cuffed tube, ensure that the cuff is totally deflated before attempting use of speaking valve
Upon inspiration, the valve opens, allowing air to be inhaled through the tracheostomy
Upon exhalation, the valve closes; air passes around the tube and through the vocal cords, enabling exhalation from the upper airway and voice production
NOTE: DO NOT USE A SPEAKING VALVE if the patient has poor lung compliance, in the case of excessive secretions, and if laryngeal or pharyngeal problems are present.
Retrieved from https://www.bsuh.nhs.uk/library/wp-content/uploads/sites/8/2021/08/Tracheostomy-tubes-and-safety-1.0.pdf on 4th November 2022
Tracheostomy Nursing Care – Wound Care & Tape Changes
The surgical wound needs to be kept clean and dry at all times. The wound dressing used needs to be changed daily or whenever it becomes soiled. The aseptic non-touch technique should be used whilst cleaning the wound with saline, including careful cleaning of the area underneath the flange. Note that between the patient’s neck and tape there needs to be a space for one to two fingers.
prepared equipment for an arising emergency
1 spare tube in the same size as the one being used
1 spare tube in a smaller size than the one being used
suction and suction catheters
oxygen
tracheostomy mask
securing tape
tracheal dilators
scissors
suture cutter
lubricating gel
syringe (to inflate cuff)
drugs and equipment for resuscitation
sterile keyhole dressing
non-sterile gloves
Tracheostomy Tube Change
A single lumen tracheostomy tube should be changed every 7-10 days so as to prevent obstruction. Other indications for a tracheostomy tube change include:
cuff failure
blockage within the tube
displacement of the tube
needing to change to a larger or smaller tube
Tracheostomy Weaning and Decannulation
A tracheostomy is no longer needed if:
the reason for a tracheostomy has been resolved
the patient is alert, stable, and self ventilating on air
the patient has no significant signs of airway obstruction
the patient is able to swallow and cough up secretions
the patient is able to maintain good oxygen saturation
In case of the above:
cuff is deflated
tube is occluded for 24 hours
if no respiratory distress is experienced by the patient, tube is removed
the stoma is covered with a small occlusive dressing
monitor patient for signs of infection and/or inflammation
monitor patient for evidence of tissue damage
monitor cuff pressure and ensure it is kept within normal limits
monitor amount, colour and consistency of secretions
Reference
Johns Hopkins Medicine (n/d). Tracheostomy Service. Retrieved from https://www.hopkinsmedicine.org/tracheostomy/about/types.html on 12th November 2022
Rashid, A. O., & Islam, S. (2017). Percutaneous tracheostomy: a comprehensive review. Journal of thoracic disease, 9(Suppl 10), S1128–S1138. https://doi.org/10.21037/jtd.2017.09.33
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use of the most appropriate airway maneuver for the patient
appropriately choosing and introducing airway adjuncts
becoming aware if and when the need for ventilation arises, and delivering it effectively
Oropharyngeal and Nasopharyngeal airways are tubes made of plastic or rubber used to help maintain airway patency by keeping the tongue out of the way from obstructing the upper airway. Whilst in use, patient breathing should be assessed and confirmed so that proper positioning is ensured.
Retrieved from https://twitter.com/myway_rt/status/1472980655696973825?lang=ar-x-fm on 28th October 2022
Complications
gagging
vomiting (may lead to aspiration)
bleeding following trauma to the oral or nasal cavity
airway obstruction caused by the oropharyngeal airway pushing the tongue to the back
laryngospasm – vocal chord spasm which causes temporary difficulties with breathing and speaking
NOTE: The oropharyngeal airway should only be used in unconscious patients with an absent gag reflex.
NOTE: Do not use the nasopharyngeal airway on patients with a fractured skull base.
Oropharyngeal & Nasopharyngeal Airway Insertion
Oral & Nasal Endotracheal Tubes
Oral endotracheal tubes are commonly used in emergency situations. Whilst oral ETTs can be inserted easily, they also facilitate insertion of a larger tube that facilitates breathing and secretion suctioning.
Nasal endotracheal tubes provide less discomfort to the patient since they enable swallowing and oral hygiene, as well as facilitate communication. They can be easily secured and stabilised, minimising the risk of unintentional extubation. Additionally, a nasal ETT is preferred for paediatric use, post-extensive dental or neck surgery, and for patients with a fractured jaw.
Endotracheal tubes are available in many sizes. At the distal end of an endotracheal tube is a cuff which can be inflated by an external pilot balloon using between 15 to 25ml of water. This helps the ETT to stay in place, helps keep ventilated air in the ETT without escaping back up, and may also help prevent aspiration (although micro-aspiration can still pass through). At the proximal end a 15mm adaptor can be attached. This adaptor enables the ETT to be connected to ventilator tubings or to manual resuscitation bags.
NOTE: in paediatrics, the ETT used is usually without a cuff, which means it can be easily coughed out.
The McCoy laryngoscope’s blade has an adjustable hinged tip for improved visualisation of the vocal cords during difficult intubations.
Intubation Drugs
analgesics
sedatives (short-acting) eg. Etomidate or Propofol
muscle relaxants (short-acting) eg. Suxamethonium (Scoline) or Atracurium (Tracrium)
resuscitation drugseg. adrenaline or atropine
NOTE: when ventilating a patient, it is very important to administer sedation first. When sedation effects kick in, a muscle relaxant can then be administered. Baseline parameters are then taken and patient is continuously monitored.
Intubation Procedure
prepare equipment and ensure that all is checked and in working order
position patient in a way which ensures airway patency
suction the patient’s oral cavity and the pharynx
provide patient with 100% oxygen through manual ventilation for a few minutes
attempt intubation – limit attempt/s to 30 seconds
use the BURP technique to increase visibility (apply pressure on thyroid cartilage whilst moving backward, upward, and rightward)
insert tube and inflate cuff
ensure correct tube positioning through auscultation of bilateral breath sounds, visible chest rise, x-ray imaging, and ETCO2 monitor
document size and depth of ETT used
ATTENTION: if the ETT is misplaced into the stomach and not in the trachea, upon ventilating with 100% oxygen, the stomach would inflateinstead of the lungs – chest.
Intubation Complications
vomiting and aspiration
laryngospasm
trauma to the mouth, nose, pharynx, trachea and/or oesophagus
gastric intubation
right main bronchus intubation
hypoxaemia and/or hypercapnia leading to hyper/hypotension and tachy/bradycardia
Right Bronchus Intubation – Retrieved from http://learningradiology.com/archives04/COW%20129-Atelectasis-ETT/atelectasiscorrect.htm on 28th October 2022
Prolonged Intubation Complications
patient discomfort
communication difficulty
patient anxiety
hypersalivation
tube displacement
tube obstruction
aspiration
nasal injury
mucosal lesions
cricoid abscess – causes airway compromise reversible with treatment
sinusitis – causes nasal discharge and undetermined fever
laryngeal stenosis – scarring within the larynx at or above the vocal cords which limits the larynx from opening as it normally does
tracheal stenosis – unusual narrowing of the trachea which restricts normal breathing
tracheo-oesophageal fistula – unusual connection between the trachea and oesophagus which causes swallowed liquids and foods to be aspirated into the lungs
NOTE: An ETT should not be used for more than 12 days. If further ventilation is required, a tracheostomy should be considered instead.
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Intensive Care Nursing Principles include care of the following immediate care aspects: airway safety, breathing, circulation, disability a.k.a. level of consciousness, and exposure. Basic ABCDE assessments of the patient in intensive care increases the patient’s survival rate.
Airway Safety in Intensive Care Nursing
In intensive care nursing, one may observe two types of airways used on patients, both of which are considered to be invasive: an endotracheal tube or a tracheostomy.
An endotracheal tube is usually indicated for patients in respiratory failure who are unable to breathe adequately by themselves, or who are experiencing physiological disturbances, leaving their airway unprotected.
A tracheostomy is a planned procedure indicated for patients in need of a prolonged period of mechanical ventilation.
Both devices deliver ventilation to the patient through a closed system
Both devices deliver oxygen from the trachea directly into the lungs
Both devices have an inflatable cuff near the tube end which provides a seal to avoid air from escaping as well as protection from aspiration of gastric content into the lungs.
Endotracheal TubeTracheostomy Retrieved from https://epmonthly.com/article/a-brief-history-of-the-endotracheal-tube/ (left) and https://en.wikipedia.org/wiki/Tracheotomy (right) on 18th October 2022
Endotracheal Tube
To ensure proper care of an intubated patient, the following measures need to be taken:
Tube Sizing
tube size is identifiable on the cuff balloon
tube is usually tied at the lips
a standard ETT is around 26mm long
Cuff Pressure
cuff pressure must be checked every 4 hours using a manual device
cuff pressure must stay between 20-30cm of water
an over-inflated cuff causes tracheal pressure damage; an under-inflated cuff causes air to escape and the ventilator to sound its alarm for inadequate ventilation
cuff leaks may happen due to inadequate air in the cuff, damage to the cuff, higher pressure from ventilator exceeding pressure in the cuff, wrong tube fit for the person’s anatomy, or positional leaks on patient movement
ETT Securing
ensure that the endotracheal tube is secure (unplanned extubation or tube misplacement can jeopardise the patient’s safety)
note length mark at teeth/lips and document clearly on the nursing report
ensure tube is tied appropriately with tapes or devices used within your clinical area
recheck tapes regularly to ensure they do not become loose – only two fingers may be inserted between the patient’s face and ties; if ties become loose, re-tie using a two-person technique to ensure prevention of extubation: one person holds the tube in place whilst the other ties the tapes
do not tie tapes around the connector at the tube’s end since this can easily become disconnected
call for assistance if the tube becomes dislodged or if you are concerned
Schematic overview of the insertion of an endotracheal tube in the airways of a mechanically ventilated patient. ( a ) endotracheal tube; ( b ) cuff infl ation tube; ( c ) trachea; ( d ) oesophagus – Retrieved from https://tinyurl.com/4m9w6m3w on 18th October 2022
Breathing
Ventilation is the in-out air movement within the lungs’ alveoli during which gas exchange occurs.
During normal breathing, ventilation occurs through negative pressure – energy causes the respiratory muscles to contract, which then lead the respiratory muscles to enlarge the thoracic cavity, creating a negative intra-thoracic pressure, which then results in airflow from atmospheric pressure to enter the lungs…
In simple terms, during normal breathing, air is sucked into the lungs.
Mechanical ventilation uses a positive pressure approach in which a pneumatic system delivers gas into the lungs during the inspiration phase. Following inspiration, the patient exhales to the level of PEEP which is set on the ventilator, thus, expiration happens passively.
In simple terms, during positive pressure ventilation (PPV), air is blown into the lungs.
NOTE: PEEP stands for Positive End Expiratory Pressure, which is the pressure set on the ventilator – pressure set above the atmospheric pressure – aimed to improve oxygenation through the recruit of collapsed alveoli.
Mechanical Ventilation Indications
Respiratory failure can be classed in 2 categories:
Type 1: Acute Respiratory Failure
Type 2: Hypercapnic Respiratory Failure
NOTE: Occasionally patients may have both.
Type 1: Acute Respiratory Failure
Acute respiratory failure occurs when arterial oxygen level is <8kPa, which is then reflected in a significant drop in the oxygen saturation level – hypoxaemia.
In hypoxaemia, the patient becomes visibly short of breath, with rapid shallow breathing usually accompanied by anxiety and confusion due to insufficient oxygen saturation within the tissues.
Acute respiratory failure typically happens due to conditions affecting gas exchange within the alveoli, such as in COVID-19 which can result in severe pneumonia, commonly bilateral pneumonia affecting both lungs, Acute Respiratory Distress Syndrome (ARDS) which causes the lungs to become waterclogged like sponges, and Pulmonary Embolism.
Type 2: Hypercapnic Respiratory Failure
In hypercapnic respiratory failure, respiratory demand is not met due to inability to breathe in enough air or breathe quickly enough, and so, the patient experiences hypoventilation.
Hypercapnic respiratory failure causes a rise in carbon dioxide along with a decrease in oxygen level; PaCO2 >6.6kPa (50mmHg) with pH of <7.25; pH fall happens due to the rise in carbon dioxide causing acidity in the blood.
is there paradoxical chest wall movement in comparison to the ventilator?
Along with the above observations, take note of the patient’s rate, rhythm, and quality of respirations.
Feel…
Palpate the patient’s chest:
can you feel both sides of the chest expand?
can you feel any vibrations within the chest? If yes, this may be an indication of respiratory secretions or fluid – check further by auscultating with a stethoscope
Listen…
auscultate for breath sounds by pressing the diaphragm side of the stethoscope firmly against the patient’s skin directly
normal breathing sound a.k.a. vesicular, is soft and low pitched, with inspiration lasting longer than the expiration sound
crackles are intermittent non-musical sounds which are caused by collapsed or fluid-filled alveoli, most commonly heard on inhalation; crackles may not clear up following coughing or suctioning
wheezing is a high-pitched musical sound caused by airway narrowing, commonly heard in COPD, Asthma, chest infection or heart failure
if no chest sounds can be auscultated and chest expansion is absent or limited, call for urgent assistance
Retrieved from https://www.nclexquiz.com/blog/auscultating-lung-sounds/ on 18th October 2022
Measuring the Effects of Mechanical Ventilation on Gas Exchange
Oxygen saturations and carbon dioxide levels are shown on the monitor and ventilator, as well as on an ABG result strip. Capnography is another way of monitoring carbon dioxide. A CO2 waveform can confirm that the tube is in the right position and that the patient is being ventilated. Flat or dampened waveforms require adjustments.
NOTE: sick patients may be aimed for a higher CO2 than normal – permissive hypercapnia.
Ventilation Risks
increased pressure in the thoracic cavity can cause lung trauma
increased risk of ventilator acquired pneumonia – a secondary lung infection; a good precautionary measure is to keep the patient’s head elevated to 30 degrees
Sputum Management
Intubated and ventilated patients cannot cough to clear their own secretions. For this reason, humidification, which is attached to the ventilator and should be checked regularly, is vital. In addition, closed suctioning of the ETT enables secretions to be suctioned out without breaking the circuit to atmospheric pressure.
Related Terminology
FiO2 – the fraction of inspired oxygen eg. 0.3 = 30% oxygen
Tidal Volume – volume of air expired in one breath
Minute Volume – total volume of air expired in one whole minute
Circulation
As a nurse working in the ICU setting you need to make sure you go through a lot of ‘checks’ prior to starting your shift:
get a good handover by the nurse who was taking care of your newly assigned patient so that you know the patient’s normal parameter values
set the alarm limits based on the values given by the handover nurse; set alarms just above the highest and just below the lowest parameters taken during the previous shift
check all equipment to make sure all is in good working order
Setting alarms related to the cardiovascular system
heart rate – usually set between 60-100bpm; observe the patient’s ECG trace for a whole minute to know its normal trend
mean arterial pressure (MAP) – usually set between 60-65mmHg, however, these values are normally based on the patient’s normal limits to allow space for patient movement, coughing, etc
arterial line trace– observe the A-line trend for a minute so you familiarise yourself with it and be able to notice any differences straight away
Checking Equipment related to the Cardiovascular system
arterial line – needs to be monitored at all times; related alarms need to be always switched on; check for air bubbles and if any are visible, make sure you remove them; arterial line site needs to be kept clean, dressed with an intact see-through dressing, and kept visible at all times for easy monitoring
NOTE: the Arterial Line is marked with a red line all the way down the side so as to alert healthcare professionals that it is not a regular line.
IMPORTANT: Never inject anything into an arterial line! Special caps are used for arterial lines with the aim of preventing this!
central venous pressure line (CVP) – certain infusions need to be administered via a CVP line since if injected into smaller veins, these can be destroyed
check that all lines attached to the patient are clearly labelled with the medication being administered, and dated; this helps identify which line is which, in case a medication needs to be abruptly stopped or disconnected
NOTE: the Central Venous Pressure line may be clear or it may have a blue line running all the way down the side for easier recognition.
pressure bag + saline bag– the arterial line AND the CVP line should both be connected to a bag of 500ml normal saline 0.9% which sits in a pressure bag; pressure bag needs to be set at a pressure of 300mmHg which is clearly indicated by a green section on the pressure bag gauge
before zeroing the set, ensure that the bags of saline have enough fluid within them, and that they are up to pressure
transducer – this needs to be zeroed, sitting approximately in line with the right atrium, so as to ensure that both the arterial line and the cvp line are monitored continuously and accurately; zeroing needs to be done at every change of shift as well as whenever the patient is disconnected
both the arterial line and the cvp line need to be switched off to the patient, and be open to air, at the correct height, and with the pressure bag blown up, following which ‘zero all’ should be set on the monitor; then, both should be switched back on to the patient, caps should be put back on , and both should be reading correctly
Checking the patient
check that the patient’s heart rate corresponds to the ECG and arterial line trace and to the radial pulse of the patient
check that the ECG tabs are correctly placed and have good contact with the patient
check every line insertion site for any signs of infection or migration
re-check any significant heart rate change with a manual pulse, blood pressure output and a 12 lead ECG
check the patient’s limbs and note capillary refill time of all four
check for skin pallor, warmth, sweating, dry skin, wounds, and bleeding
check the MAP is reading adequately and whether it needs any fluids or drugs to maintain it
check the patient’s temperature: >39 degrees celsius needs to be taken care of; on the other hand, a patient can easily become cold in an ICU setting…avoid hypothermia – keep your patient warm!
ASK FOR HELP IF IN DOUBT AT ANY TIME!
NOTE: In the ICU setting, 5-lead ECG monitoring is used!
Check Urine Output
a urinary catheter is inserted in every sedated and ventilated patients
an average person’s urine output should be about 0.5ml/kg/hr; an inadequate blood pressure may later lead to a decrease in urine output, thus, check urine output every hour
a patient with a low blood pressure and poor urine output may be commenced on inotropes
common inotropes include Noradrenaline, Adrenaline, and Metaraminol
Inotropes:
are calculated in mcg/kg/min and titrated according to patient parameters to maintain an adequate MAP
should be administered through a central line
use should be accompanied with patient monitoring through an arterial line
are short-acting, thus, should be set to infuse continuously without running out; if left empty, patient’s blood pressure may drop dangerously low, possibly leading to a cardiac arrest
IV fluid boluses may also be prescribed, though usually, this is done more in other ward settings
Electrolytes
electrolytes which have a direct effect on the heart’s conduction, contraction and rhythm need to be closely monitored in intensive care nursing
potassium level should be >4 – 5.5mmols/L
magnesium level should be >1.0mmols/L
phosphate level should be >0.7mmols/L
Disability
Sedating the patient – why?
Sedation level is always decided by the ICU consultant. Reasons for patient sedation include:
ventilation facilitation
anxiety relief
acute confusion management
treatment implementation
diagnostic procedures
reduction of tachycardia, hypertension, or raised intracranial pressure
Commonly used Sedative drugs
Propofol – anaesthetic agent (negative inotrope)
Morphine – opiate
Midazolam – benzodiazepine
Fentanyl – synthetic opiate
Remifentanyl – short half life
Atracurium – muscle relaxant
The Non-Sedated Patient
assess and document the non-sedated and awake patient using the GCS or the AVPU scale to find out the patient’s level of consciousness and current mental state
assess and document the patient’s pupillary size and reaction
identify changes within the patient’s neurological state; if a patient becomes newly confused or difficult to wake up, check for any respiratory issues or medical condition deterioration
The Sedated Patient
assess the sedated patient using the GCS; include pupillary size and reaction in your assessment and documentation
document at which level is your patient sedated using the Richmond Agitation Sedation Scale (RASS)
assess patient at the beginning of your shift; continue performing assessments throughout your shift especially since the necessity for patient sedation level may change
NOTE: always check thoroughly syringe drivers with sedation, including rate and time; ensure replacement syringes are ready to be replaced prior to stopping. Sedation which is abruptly stopped may lead to patients waking up frightened and disoriented, leading to unplanned extubating or high levels of distress and anxiety!
Retrieved from https://handbook.bcehs.ca/clinical-resources/clinical-scores/richmond-agitation-and-sedation-rass/ on 22nd October 2022
Glucose Level Check
Whilst a patient may not be diabetic, one may still be on insulin in Intensive Care Nursing. This is because in ICU, patients often require an insulin infusion so as to keep their blood glucose level between 4-10mmols.
Thus, it is important to check the patient’s blood glucose levels frequently as per local guidelines, especially since in sedated patients, noticing hypoglycaemia is quite difficult.
Pain Assessment
Pain assessment is vital in intensive care nursing, especially since it may be a good indication of a newly evolving critical condition such as a Myocardial Infarction or an infection.
If a sedated patient exhibits physical stress responses such as an increased heart rate, blood pressure or agitation, consider pain as a possible culprit. A good Critical Care Pain Observations Tool (CPOT) may be used to assess pain in sedated patients. This considers the following aspects:
facial expression
body movements
ventilator compliance
muscle tension
If pain is suspected, analgesia should be administered. Whilst all ventilated patients are already on sedation and analgesia, an increased rate or a bolus may be considered, followed by a reassessment to check for improvement.
Retrieved from https://www.researchgate.net/publication/337928045_PAIN_MANAGEMENT_IN_INTENSIVE_CARE_UNIT_A_BRIEF_REVIEW/figures?lo=1 on 22nd October 2022
Exposure
Nutrition
In intensive care nursing, the patient should ideally be fed early. If awake and extubated and can eat and drink, assist in doing so. Remember that invasive lines and air mattresses can restrict patient mobility, and some assistance can go a long way!
Following intubation or tracheostomy, a patient needs to undergo a swallow assessment to ensure oral intake is advisable. At times, a nasogastric tube or jejuno tube may be indicated.
Retrieved from https://medlineplus.gov/ency/imagepages/19965.htm on 23rd October 2022
Positioning needs to be checked well whenever a new shift is taking over, as well as before oral intake is administered:
note tube position and compare current length with the previously documented length
ensure tube is well secured so as to prevent migration; change adhesive holder if necessary
checking pH of patients in intensive care nursing may be misleading; aspirate gastric contents every 4 hours and replace or discard as per local policy
to help with absorption, motility agents may be prescribed
tube feeding prescriptions are based on body weight and caloric and electrolyte needs; electrolytes, magnesium and phosphate replacement is usually prescribed together
cartridge may need to be changed every 24 hours
new lines should always be labelled with date and time of change
If enteral feeding fails, total parenteral nutrition is usually considered. TPN is administered via a PICC line or Central Line through a specific lumen – a white port. Medications are not administered via the same line.
NOTE: TPN is lipid based and so it requires strict asepsis when lines and bags are changed. New lines need to be labelled clearly with the date and time of change.
Nausea & Vomiting
An abdominal assessment needs to be performed on the patient in intensive care nursing …
LOOK at the shape and for distension, masses, ascites, prominent veins, bruising, scars, drains, or stomas.
LISTEN for bowel sounds using your stethoscope over the right lower quadrant.
FEEL and assess for localised or radiating pain and masses.
Bowel Assessment
check the last documented bowel action – patients in the Intensive Care Setting are prone to becoming constipated due to reduced bowel motility
administer any prescribed aperients (drugs to help with constipation) which are usually started early on in this setting to promote regular bowel movements
promote dignity especially in the case of incontinence
take positioning into consideration – assisting the patient with a hoist to a more natural defecation position can help conscious patients
if patient experiences uncontrolled diarrhoea, rectal tubes may be indicated to protect the skin and to measure fluid loss
record frequency and consistency
Assessing for Venous thromboembolism (VTE)
Patients in the intensive care setting are often provided with intermittent compression boots eg. flowtron, to help stimulate blood flow to deep veins, so as to help prevent thrombosis. Such devices need to be removed at least once per shift so the underlying skin is thoroughly assessed.
Mouth Care in the ICU Setting
Mouth care in the intensive care setting provides the patient with comfort. Additionally, it helps prevent Ventilator Associated Pneumonia. Toothpaste and baby toothbrushes are used twice daily. Ideally, water is given every 4 hours, and vaseline is applied to the patient’s lips every time.
Eye Care in the ICU Setting
Sedated patients are not able to blink, which leads to an increased risk of corneal sores. Use recommended eye drops as per local policy for this reason. Check the patient for redness, pus, dryness, and Scleroderma. Use eye drops and lacrilube.
Patient Skin Care
check for skin breakdown, redness, blistering surgical sites, existing pressure sores, wounds, dressings, or rashes; if needed, change the type of mattress they are currently on
encourage position changes or move sedated patients regularly to avoid formation of pressure sores
check the skin beneath flotrons or devices to avoid thrombosis at least when starting your shift
check the NGT for any markings onto the nostrils
check ETT and holders, repositioning / pressure alleviating devices; check tapes’ last change and note any ulcerations, bleeding gum or loose teeth
change saturation probe position at least every 2 hours
check for any lines or drain catheters underneath the patient
minimise shear and friction damage whilst handling the patient
ensure no creases are on the bed sheets since these may cause pain and sores
change any IV lines and feeding tubes as per local policy
Reference
Critical Care Outreach Team (2020). Basic Principles of Intensive Care Nursing. Royal Berkshire NHS Foundation Trust. Retrieved from https://www.baccn.org/media/resources/Basic_principles_of_Intensive_Care_Nursing.pdf on 18th October 2022
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In the critical care setting the nurse’s observatory role is crucial in maintaining optimum care of the critical patient, which is why, ideally, the nurse-patient ratio should be 1:1. Additionally, technology plays a very important role within the same setting. However, one must not forget the GI-GO paradigm, a.k.a. Garbage In, Garbage Out – whilst analytical technology can be very useful in critical care, produced data always depends on how well the data is collected.
Invasive Monitoring Equipment in Critical Care
Invasive monitoring equipment used within the critical care setting includes:
invasive (arterial) catheter – a small cannula, usually containing an anti-reflux switch, which is inserted (sometimes with the help of a guidewire) into an artery to constantly monitor a patient’s blood pressure
high pressure tubing – helps preserve pressure and prevent loss of pressure between the patient’s vein or artery and the transducer
transducer – delivers numerical blood pressure readings and arterial pressure waveforms with every heartbeat to a bedside monitor by sensing blood-generated pressure passing past a catheter tip; readings and waveforms delivered are dynamic and change with every beat of the cardiac cycle; the transducer and line are attached to the arterial line via a connector, allowing the changing of the transducer set (ideally every 96 hours) without requiring re-insertion of the arterial line
flush system – helps keep the line clear and avoid blood backflow through the catheter; saline bag is used under the pressure bag, usually with 2 units of heparin per cc, to help keep the artery open UNLESS the patient has a known allergy to heparin; NOTE: even a little bit of heparin can cause heparin-induced thrombocytopaenia (immune system causes platelets to clot in the presence of heparin, resulting in platelet levels dropping), so if the patient’s platelet count drops for no apparent reason, remove the heparinised saline bag and change to saline bag instead
Retrieved from https://tinyurl.com/3zm7dt7t on 10th October 2022
Arterial Catheter Indications
An arterial catheter is indicated in instances:
when continuous blood pressure monitoring is required eg. during surgery, during use of vasoactive medications, or in the case of compromised cardiac output, fluid volume, and tissue perfusion
when patients require frequent arterial blood gas sampling eg. if they are experiencing respiratory failure or are on mechanical ventilation
Arterial Line Placement Sites
Radial Artery – easily accessible site which is also considered to be safe since collateral hand circulation is supplied by the ulnar artery – circulation within both these arteries can be checked via an allens test; this site is also preferred due to a decreased risk of complications when compared to other larger vessels
Brachial Artery – located close to joint thus blood flow may be easily interrupted
Femoral Artery – large vessel which, due to its location, is difficult to observe on a continuous basis
Dorsalis Pedis Artery – needs to be avoided if the patient has severe peripheral vascular disease
Retrieved from https://journals.rcni.com/nursing-standard/arterial-catheters-promoting-safe-clinical-practice-ns2009.09.24.4.35.c7295 on 10th October 2022
Allens Test
Arterial Blood Pressure Reading
When using an arterial catheter, a constant second by second reading of the systolic (SBP), diastolic (DBP), and the mean arterial blood pressure (MAP) can be provided. The MAP is a more accurate indicator of the patient’s condition since it also reflects the perfusion rate of essential organs such as the kidneys.
The MAP is usually calculated automatically by most monitors. However, it can be calculated using the following formula:
Retrieved from https://clinicalview.gehealthcare.com/white-paper/measuring-mean-arterial-pressure-choosing-most-accurate-method on 10th October 2022
Arterial Waveform
Retrieved from https://www.wj-99.top/products.aspx?cname=blood+pulse+pressure&cid=6 on 10th October 2022
Retrieved from https://thoracickey.com/hemodynamic-monitoring/ on 10th October 2022
Retrieved from https://www.ncbi.nlm.nih.gov/books/NBK556127/figure/article-17843.image.f3/ on 11th October 2022
Respiratory Swing
The respiratory swing is more pronounced in the case of mechanical ventilation. It can help indicate dehydration.
Retrieved from https://secure.library.leicestershospitals.nhs.uk/PAGL/Shared%20Documents/Arterial%20Line%20Waveform%20Interpretation%20UHL%20Paediatric%20Intensive%20Care%20Guideline.pdf on 10th October 2022
Care of the Patient with an Arterial Line
perform regular checks for loose connections, blood backflow, a deflated pressure bag, or lack of fluid in the flush bag
ensure that the arterial catheter site is easily accessible and always visible
DO NOT inject any medication in the arterial catheter!
A patient with an arterial line may eventually develop complications. Monitor the patient for:
Infection – perform frequent patient checks, noting any redness, discharge, warmth to touch, or fever; preventative measures include using an aseptic non-touch technique during insertion of catheter, blood sampling, and line maintenance
Haemorrhage – perform frequent checks at the arterial catheter insertion site especially if it was inserted into the femoral artery since this is a large vessel
Thrombosis – perform frequent checks on patient’s legs, taking note of the colour, pulse, temperature and sensation; preventative measures include adequate flushing following blood sampling, and using the smallest catheter possible during the insertion procedure
Levelling and re-zeroing
The transducer system must be leveled and zeroed to provide accurate haemodynamic values, since this eliminates atmospheric pressure effects. The exact point where the 4th intercostal space crosses the mid-axillary line is referred to as the Phlebostatic Axis. The nurse should ensure that zeroing is done at the beginning of every shift, as well as after any major positional changes.
How To Remove Arterial Line
perform hand hygiene
don gloves
gather necessary equipment
remove any dressings and sutures if present
whilst applying firm pressure to insertion site pull out the arterial line gently
apply manual pressure and elevate limb
apply small occlusive dressing which allows periodic observation for blood leakage
NOTE: an adequate blood pressure reading doesn’t automatically signify adequate perfusion…always take into consideration the whole clinical picture, biochemical values, along with haemodynamic parameters.
NOTE: additional monitoring equipment can also be used along with the arterial line to measure cardiac output.
Central Venous Catheters CVC
Central Venous Catheters are indwelling catheters within the superior vena cava, inferior vena cava, right atrium, or any large vein leading to these vessels. They are sought in the case of:
administration of large amounts of fluid
administration of vesicant drugs (drugs that can cause tissue necrosis or blister formation if accidentally infused into tissue surrounding vein)
measurement of pressure within the right atrium (Central Venous Pressure a.k.a. CVP) – this provides the measurement of the right atrium filling pressure, and indicates right ventricular function.
CVCs are inserted via the:
internal jugular veins
subclavian veins
femoral veins
Retrieved from https://www.schn.health.nsw.gov.au/_policies/pdf/2019-182.pdf on 14th October 2022
CVCs usually have 3 or 5 lumens. The distal port is used for monitoring of the CVP, however, it can also be used to administer blood products since it is the biggest port in a CVC. The other ports are used for fluid or drug administration. CVC line requires priming by approximately 1ml of fluid.
In a triple port lumen, the brown port opens up distally (at the tip), the blue port is the medial one, and the white port opens up proximally. If TPN is planned for the patient, it cannot be used intermittently with other infusions. Once TPN is stopped from being run through a particular port for any reason, and another infusion or medication is run instead, TPN cannot be re-administered again through that port.
NOTE: Always label CVC catheters and include insertion date!Note that central lines should be removed within a week from insertion.
Central Venous Catheter Insertion
provide patient with information about the procedure and address any questions or concerns
patient is positioned head down
patient’s skin is prepared for insertion
local anaesthetic is administered
preferred vein is located by needle and syringe
a guide wire is introduced through the needle, after which the needle is removed
CVC is introduced over the guide wire, and is then attached to primed system
CVC is sutured in place
a chest x-ray is performed to confirm correct placement
Retrieved from https://twitter.com/mtaiorg/status/1531519596003459073 on 14th October 2022
Central Line Dressing Change
Possible CVC Insertion Complications
pneumothorax – lung collapse following air leakage into the pleural space between the lung and chest wall
right atrium perforation
cardiac tamponade – when the pericardial space fills up with blood or other fluid, putting pressure on the heart, reducing blood pumping activity whilst causing a drop in blood pressure
arterial puncture
haemorrhage
air embolus
NOTE: preventative measures pre-procedure include positioning the patient in the Trendelberg position for both insertion and removal, and performing a chest x-ray following CVC insertion.
CVC occlusion – may happen due to mechanical obstruction, precipitation of medications or parenteral nutrition, or due to thrombosis
CVC displacement
air entering the system (always check connections and taps)
local infection
systemic infection
NOTE: preventative measures for infection include adequate and correct hand hygiene, using an aseptic technique whilst handling the CVC, and replacing catheter when needed or required.
CVC Removal
CVCs pose a great risk of infection and are considered as major causes of morbidity and mortality. Additionally, they are also the main source of bacteraemia and septicaemia in hospitalised patients. Thus, CVCs should be removed as soon as possible.
ensure that no medication or fluids are being administered to the patient and/or listed in the patient’s treatment chart
use an aseptic non-touch technique
remove dressing and cut sutures
place patient head-down and lying flat
using the valsava maneuver, ask patient to hold his breath while you slowly remove the catheter; if resistance is felt on removal seek further help
apply pressure to the punctured site until bleeding stops
use an air occlusive dressing for the first 24 hours
if required send tip of CVC for culture and sensitivity
CVP Central Venous Pressure Measurement
Central Venous Pressure measurement, which is transduced electronically through the use of the CVC, should read between 0-8mmHg in normally breathing patients, and higher in mechanically ventilated patients. Attention should be given more to the measurement trend rather than individual readings.
The main limitation of the CVP measurement is that it does not initially reflect left ventricular dysfunction.
Whilst traditionally CVP monitoring was used to assess a patient’s fluid status on which hydration management was decided, studies have shown no correlation between CVP and preload (left ventricular end diastolic volume). Thus, CVP measurements should no longer be relied upon when making clinical decisions on patient fluid management (Marik et al., 2008).
Patient Monitoring – Non-Invasive & Minimally Invasive Techniques in Critical care
minimally invasive using data from arterial or CPV lines, a special type of transducer or catheter
calculations based on arterial waveform and patient demographic data such as weight, sex, age, and height
calculates CO (cardiac output), CI (cardiac index), SV (stroke volume), SVI (stroke volume index) and SV Variation; if interfaced with CVP data, calculations of SVR (systemic vascular resistance) and SVRI (systemic vascular resistance index) are also produced (more info on listed terms here)
may be calibrated (eg. PiCCO) or non-calibrated (eg. Vigileo)
Vigileo / flotrac (non-calibrated)
Vigileo uses a normal arterial catheter without the need for intermittent calibration. However, it is not recommended in the case of arterial wave artefacts, compromised arterial cannula, intense peripheral vasoconstriction, or arrhythmias. It also does not measure advanced volumetrics which can provide accurate CO measuring in a non-invasive way.
Vigileo / FloTrac (non-calibrated) ~ Retrieved from https://link.springer.com/referenceworkentry/10.1007/978-3-642-00418-6_248 on 14th October 2022
Limitations can be imposed by spontaneous breaths, open chest, or arrhythmias.
Retrieved from https://www.pattondesign.com/edwards on 14th October 2022
Retrieved from https://secure.library.leicestershospitals.nhs.uk/PAGL/Shared%20Documents/Arterial%20Line%20Waveform%20Interpretation%20UHL%20Paediatric%20Intensive%20Care%20Guideline.pdf on 10th October 2022
Picco Monitoring (calibrated)
PiCCO, which stands for Pulse Contour Cardiac Output, combines pulse contour analysis with transpulmonary thermodilution using a Thermodilution Arterial Catheter, which is inserted preferably in the femoral artery, or else through the brachial, axillary, or radial artery (which requires a longer catheter).
Retrieved from https://www.getinge.com/int/products/picco/ on 14th October 2022
Transpulmonary thermodilution is picked up by a temperature sensor located at the catheter tip, whilst the arterial blood pressure ABP is measured through the pressure extension line.
The artery pressure curve provides the following parameters:
CCO (CCI) – Continuous Cardiac Output
SV (SVI) – Stroke Volume
SVR (SVRI) – Systemic Vascular Resistance
CPO (CPI) – Cardiac Power Output
SVV – Stroke Volume Variation
PPV – Pulse Pressure Variation
dPmx – Left Ventricular Contractility
HR – Heart Rate
pArt-M – Mean Arterial Blood Pressure
pArt-S – Systolic Arterial Blood Pressure
pArt-D – Diastolic Arterial Blood Pressure
CVP – Central Venous Pressure
The Intermittent Transpulmonary Thermodilution provides the following parameters:
Q – Cardiac Output / CI – Cardiac Index
GEDV (GEDI) – Global End-Diastolic Volume
EVLW (ELWI) 0 Extravascular Lung Water
GEF – Global Ejection Fraction
PVPI – Pulmonary Vascular Permeability Index
CFI (Cardiac Function Index
ITBV (ITBI) – Intrathoracic Blood Volume
GEDV and ITBV reflect PRELOAD – GEDV indicates end volume at rest in all 4 heart chambers and ITBV indicates the volume in heart and pulmonary vessels.
ELWI indicates the water content in the lungs, thus can clearly indicate pulmonary oedema, if present.
GEF indicates the ration of 4 stroke volumes divided by GEDV. It helps detect ventricular dysfunction, if present.
Retrieved from https://litfl.com/picco/ on 14th October 2022
PICCO Setup & Monitor
Retrieved from https://obgyn.onlinelibrary.wiley.com/doi/10.1002/uog.20231 on 14th October 2022
Retrieved from http://mindray.sy/patient-monitors/ on 14th October 2022
PiCCO Advantages
Retrieved from https://www.slideserve.com/kadeem-chase/picco-plus on 14th October 2022
Picco Disadvantages
cannot be used with an intra-aortic balloon pump
needs to be recalibrated whenever patient changes position, therapy or condition
EVLW is underestimated when it comes to use on obese patients and post-pneumonectomy patients
AAA (abdominal aortic aneurysm) raises GEDV and ITBB measurements
Haemodynamic and Volumetric Monitoring
Retrieved from https://slideplayer.com/slide/12444415/ on 14th October 2022
Pulse Oximetry in Critical Care
Pulse Oximetry is a non-invasive method which monitors oxygen saturation (SaO2). It indiates the percentage of haemoglobin bound to oxygen.
In normal healthy adults, oxygen saturation should be >96%.
Accurate pulse oximeter readings depend on whether it is positioned well on a patient’s finger, ear, toe or nose, and how good the patient’s peripheral circulation is. Similarly, if a patient is shivering, the pulse oximeter may not be able to pick up a signal. Nail varnish may also affect reading outcome. Additionally, pulse oximetry cannot differentiate between normal and abnormal haemoglobin, thus may result in false high readings.
NOTE: always interpret pulse oximeter readings in conjunction with shown waveform.
Capnography in Critical Care
Capnography measures exhaled carbon dioxide gas, depicting a squarish waveform. Its measurement approximates PaCO2, usually being about 1-5mmHg lower than the actual PaCO2.
Capnography is non-invasive.
Capnography is very useful in cases where the patient is suffering from a head injury or from intracranial hypertension.
Very low ETCO2 values given through capnography can help indicate gastric intubation rather than an intended tracheal intubation.
With regards to CPR assessment, one should aim for a minimum of 10mmHg.
An increased disparity between PaCO2 and ETCO2 suggests poor pulmonary blood flow, poor cardiac output, or lung disease.
Retrieved from https://slidetodoc.com/endtidal-co-2-monitoring-mairi-mascarenhas-clinical-educator/ on 15th October 2022
Reference
Marik, P. E., Baram, M., & Vahid, B. (2008). Does central venous pressure predict fluid responsiveness? A systematic review of the literature and the tale of seven mares. Chest, 134(1), 172–178. https://doi.org/10.1378/chest.07-2331
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Environmental Emergencies are emergencies arising from the surrounding environment. These typically include bites and stings, poisoning, envenomation, intoxication, as well as hyperthermia and hypothermia triggered by environmental exposure.
Bites & Stings Environmental Emergencies
Retrieved from https://www.communityhikingclub.org/information/what-bit-me/ on 10th October 2022
Bites and stings are considered to be environmental emergencies resulting from insect stings, animal bites, human bites, fish stings, and jelly fish stings. Possible complications to bites and stings include pain, bleeding, infection, envenomation, and anaphylaxis.
Bites & Stings Signs & Symptoms
bite marks
bite wounds
localised pain
localised tenderness
redness, swelling and warmth to touch – indication of inflammation & possible infection: check casualty’s temperature to confirm
First Aid for Bites & Stings
take necessary precautions – assess possible dangers and wear gloves
provide reassurance
assess for any ABC compromise
identify signs of anaphylaxis or envenomation
provide first aid based on casualty’s condition or injury
call 112
monitor casualty for possible respiratory compromise or development of shock
For Animal & Human Bites…
control bleeding by applying direct pressure on site
once bleeding is under control, wash wound with soap and water to get the wound clean from any saliva etc.
rinse wound thoroughly
cover with a clean dressing or if unavailable, a clean cloth or clothes
take or send casualty to the hospital or to a health centre to be reassessed
For Snake or Spider Bites…
limit casualty’s movements
lower bitten area
wash bitten area gently with soap and water to remove any saliva
irrigate area but DO NOT RUB and DO NOT USE ANY TOURNIQUETS
provide stabilisation of the bitten limb so that chemical absorption is slowed down
For Insect Stings…
limit casualty’s movements
remove any embedded sting or insect part by scraping the area gently with a credit card or a knife (using its blunt side)
wash area gently with soap and water
apply ice over stung area to promote vasoconstriction
DO NOT USE ANY OINTMENTS
monitor for signs of inflammation and/or infection eg. for Lyme Disease following a tick bite
For Jelly Fish Stings…
irrigate stung area with white vinegar so as to stop the chemical reaction on the skin; if unavailable use sea water or saline to irrigate…DO NOT USE FRESH WATER!
using forceps or tweezers remove any visible remaining tentacles from the skin’s surface
watch out for possible signs of anaphylaxis, envenomation, and shock
For Fish Stings…
remove any visible remaining pieces of the fish’s stinger
irrigate area with water
immerse wound area in hot water for a minimum of 30 minutes so as to kill the enzymes found in the venom; this stops absorption and spreading of the venom throughout the body
help casualty into a supine position, keeping immobilised the affected limb
For Sea Urchins…
In the case of sea urchins DO NOT ATTEMPT TO TAKE STINGERS OUT! Help the casualty to the hospital or health centre since a cream may be prescribed to help the skin expel any sea urchin remaining pieces.
For Contact Irritants…
scrub and irrigate wound bed with sea water or saline water
remove any visible debris
cover wound if required
monitor casualty for signs of infection such as swelling, redness, pus and fever, in which case encourage casualty to seek medical advice
Poisoning, Envenomation and Intoxication
Poisoning happens when one eats something poisonous, and in return gets poisoned.
Envenomation happens when venom penetrates the skin by means of a snake bite, scorpion sting, spider bite, or any other environmental factors. While venom is not always lethal, it can still lead to complications.
Intoxication happens when one self-ingests or self-injects a chemical, such as alcohol and drugs, which are toxic to the body and thus may cause severe consequences.
Poisoning, envenomation and intoxication can happen through 4 different modes of entry, namely through inhalation, ingestion, absorption, or injection.
Poisoning Signs & Symptoms
history
visible signs surrounding casualty eg. drug/poison containers, used syringes, drug-abuse related material
needle marks
animal bite marks
Respiratory Signs & Symptoms…
burns
odours
stains around mouth
coughing
dyspnoea
respiratory distress
Circulatory Signs & Symptoms…
sweating
fainting
shock
discomfort in chest area
Digestive Signs & Symptoms…
nausea and vomiting
abdominal discomfort and/or cramping
diarrhoea
Consciousness Signs & Symptoms…
headache
dizziness
drowsiness
confusion
altered level of consciousness
pupillary changes eg. dilation or constriction of the pupil/s
Poisoning First Aid
use the S.A.F.E. approach
if casualty is responsive, establish cause of poisoning, monitor, and be prepared to resuscitate if needed
if casualty is unresponsive but breathing, put in recovery position
if casualty is unresponsive and not breathing start CPR
call 112 for medical assistance
DO NOT ADMINISTER ORAL FLUIDS as that would dilute poison
DO NOT INDUCE VOMITING
DO NOT WASTE TIME trying to identify type of poison if uncertain
DO NOT SUCK ANIMAL VENOM OUT OF WOUND
DO NOT APPLY A TOURNIQUET or compression bandage
Alcohol & Drugs First Aid
use the S.A.F.E. approach
provide first aid for any injuries incurred
if casualty is unresponsive but breathing, assist in recovery position
if casualty is unresponsive and not breathing, resuscitate by performing CPR
if casualty is responsive with altered level of response, call 112 for medical assistance since this indicates intoxication
Retrieved from https://www.mymed.com/diseases-conditions/hyperthermia on 10th October 2022
Temperature extremes a.k.a. hyperthermia and hypothermia can be incurred either through environmental exposure or else as a disease process. They are both considered to be environmental emergencies.
NOTE: For accuracy purposes, core temperature should always be measured either rectally or through the ear by infrared.
Thermoregulation factors include:
illness
awareness
age
nutrition
infection
substance misuse
environmental conditions
Hypothermia Indications
core temperature of 20 = increased risk for cardiac arrest
core temperature of 25 = increased risk of cardiac arrhythmias
core temperature of <30 = severe hypothermia
core temperature of 30-32 = moderate hypothermia
core temperature of 32-35 = mild hypothermia
temperature <35oc
cold pale skin
uncontrollable shivering which may eventually stop
call 112 in case of severe heat exhaustion signs OR if symptoms do not lessen within 30 mins OR in case of heat stroke symptoms
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Illness can be categorised under either acute or chronic. Whilst chronic illness is long-lasting, potentially worsening over time, sudden acute illness happens suddenly with immediate or rapidly developing symptoms, which is why it usually requires immediate care.
Altered Level of Consciousness
Retrieved from https://www.nursingtimes.net/roles/hospital-nurses/patient-narratives-4-the-meaning-behind-communication-04-04-2016/ on 2nd October 2022
When normal brain activity is interrupted, a casualty may experience loss of awareness of their surroundings. At times the casualty may only show responsiveness when stimulated eg. through shaking, shouting, or pain stimulus.
Causes
hypoglycaemia – most common cause of unconsciousness
any issue with the airway, breathing or circulation leading to brain hypoxia
neurological issues (eg. CVA)
serious infection (eg. meningitis or infection in relation to the brain)
brain injury following trauma to the head
poisoning which affects the brain directly, or which leads to ABC compromise that induces brain hypoxia
other sudden acute illness eg. myocardial infarction
Signs & Symptoms of Neurological Issues
dizziness
disorientation
confusion
lethargy
drowsiness
low level of response
unequal pupil size
abnormal pupil reaction
limb weakness
unresponsiveness
seizures
NOTE: in CVA, limb weakness is commonly experienced on one side of the body.
A casualty’s level of consciousness is typically tested using the Glasgow Coma Scale, while the level of response is tested using the AVPU score.
Cerebrovascular Accident CVA
Retrieved from https://www.netmeds.com/health-library/post/strokecerebrovascular-accident-causes-symptoms-and-treatment on 2nd October 2022
Haemorrhagic Stroke – a stroke which happens when weakened or deceased blood vessels rupture, causing blood leaks into the brain tissue
Ischaemic Stroke – a stroke caused by a blood clot that stops the normal flow of blood to a part within the brain
Signs & Symptoms of Cerebrovascular Accident
sudden headache
blurred vision
facial asymmetry
drooling
slurred speech
numbness and/or weakness focused on one side of the body
First Aid for CVA
Retrieved from https://www.cedars-sinai.org/blog/stroke-strikes-act-fast.html on 2nd October 2022
In an unresponsive casualty:
maintain ABCs
assist into recovery position
call 112
monitor & provide reassurance
In a responsive casualty:
assist in a comfortable position, preferably on a bed if available
elevate head and shoulders to promote comfort and to minimise pressure
incline head towards affected (drooling) side to avoid aspiration pneumonia
loosen any tight clothing
call 112
monitor & provide reassurance
Hypoglycaemia
Retrieved from https://www.dailypioneer.com/2016/health-and-fitness/hypoglycaemia-cases-increased-by-39-per-cent-study.html on 2nd October 2022
Hypoglycaemia, which can be considered as a sudden acute illness, can be defined as a glucose concentration of 3.9mmol/l or below.
Signs & Symptoms of Hypoglycaemia
history of Type 1 Diabetes
weakness
fatigue
hunger
pale, cold, clammy skin (this side effect helps differentiate between hypoglycaemia and a CVA)
aggressiveness or unusual behaviour
possible speech slurring
First Aid for Hypoglycaemia
In an unresponsive casualty:
maintain ABCs
assist into recovery position
call 112
monitor & provide reassurance
In a responsive casualty:
give sugary drink (you may mix 2 tsp sugar in a little bit of water) or assist with own medication if available (eg. glucose gel)
provide privacy (casualty may become incontinent)
provide reassurance
monitor
if condition improves encourage casualty to seek medical advice; if condition deteriorates call 112
Seizure
Retrieved from https://www.jems.com/special-topics/jems-con/know-differences-between-seizures-epilep/ on 2nd October 2022
A seizure is considered to be a sudden acute illness, however, it is not exactly an illness by itself, but a sign of another illness affecting the activity of the brain eg. fever, head trauma, cerebral hypoxia, epilepsy, etc.
Signs & Symptoms of a seizure
face twitching
lip smacking
individual limb spasm
uncontrollable muscle spasms
convulsions
staring spell
drooling or frothing at the mouth
abnormal sounds
tongue biting
incontinence
First Aid for Seizures
During a seizure:
notice starting time of seizure and time its duration
reduce injury risk – provide protection for the casualty’s head and remove any nearby items which may be of danger
DO NOT RESTRAIN
DO NOT PUT ANYTHING INTO THE CASUALTY’S MOUTH
ensure casualty’s privacy especially due to possible incontinent episode
apply tepid sponging in case of casualty being febrile
After a seizure:
perform primary assessment and assist if necessary
perform secondary assessment and assist if necessary
manage ABCs
assist in recovery position
call 112
monitor casualty’s condition
Fainting Episode
Retrieved from https://onewelbeck.com/cardiology/symptoms/blackouts-fainting/ on 2nd October 2022
Fainting is a circulatory condition affecting consciousness. Fainting can present as follows:
possible brief loss of consciousness
slow pulse
pale, cold, clammy skin
First Aid for Fainting
remove tight clothing
increase air circulation (eg. by opening windows)
assist to the floor to prevent casualty from getting hurt in case of a fall
elevate legs (approximately 30cm)
maintain casualty’s body temperature so as to help keep a stable blood pressure
provide privacy and reassurance
monitor
call 112 if required
Cerebral Infection
Retrieved from https://www.momjunction.com/articles/common-symptoms-of-meningitis-in-toddlers_0098491/ on 3rd October 2022
Signs & Symptoms
fever
stiffness in the neck area
sensitivity to light
signs of shock
non-blanching rash – press area covered by rash and let go…a rash that still shows points to a neurological infection eg. meningitis
First Aid for Cerebral Infection
Seek medical advice immediately by calling 112!
Dyspnoea
Retrieved from https://safarmedical.com/en/medical-articles/difficulty-breathing on 3rd October 2022
Dyspnoea is otherwise known as experiencing difficulty in breathing. Dyspnoea can happen due to various reasons:
Airway Obstruction
Cardiac & Circulatory Disorders
Respiratory Disorders affecting either the inhalation/exhalation process (eg. asthma), the lower airways, the diffusion process across the alveolar membrane, or the uptake of oxygen in pulmonary circulation (eg. anaemic patients)
Causes of Dyspnoea
asthma
pulmonary oedema – caused either by a cardiac problem or by accumulation of fluid in the alveoli within the lungs
hyperventilation syndrome – stress => hyperventilation => not feeling well => anxiety => increased hyperventilation => increasing symptoms (respiration rate of more than 30 breaths per minute; numbness)
chest infection
inhalation of fumes/chemicals
drowning syndrome
choking
strangulation or suffocation
Dyspnoea signs and symptoms
inability to speak
use of accessory muscles to breathe
abnormal respiratory rate and rhythm pattern
noisy breathing
cyanosis
disorientation, confusion, or unusual aggressiveness – these are classic signs of cerebral hypoxia irrespective of its cause
First Aid for Dyspnoea
provide reassurance to reduce anxiety and increased symptoms
encourage good breathing pattern
increase ventilation in casualty’s area
help sit up properly
release tight clothing
if casualty is on medication eg. inhalers, assist with self medication
call 112
monitor casualty and be prepared to resuscitate if need be
Foreign Body Airway Obstruction (FBAO)
Foreign Body Airway Obstruction can manifest in two ways: foreign bodies may cause partial, or complete airway obstruction.
Signs & symptoms of foreign body airway obstruction
In mild (partial) airway obstruction, the casualty is able to speak and cough.
In severe (complete) airway obstruction, the casualty:
is unable to speak or cough
has noisy breathing (wheezing)
shows signs of severe dyspnoea
shows signs of distress
may be or become unresponsive
First Aid for Foreign Body Airway Obstruction
In a conscious patient:
5 back blows followed by 5 abdominal thrusts
continue, alternating between the two methods until either foreign body gets dislodged, or else casualty becomes unresponsive
In an unconscious patient:
start CPR
NOTE: in casualties who are either obese, pregnant, or children, do not perform abdominal thrusts…instead do chest thrusts; after the intervention, the casualty should be taken to hospital to be assessed for possible internal damage.
Chest Pain
Chest pain can result due to Ischaemic Heart Disease – a disease in which there is an obstruction of blood flow to an area within the heart which causes hypoxia and death of that particular area in the heart.
Signs & Symptoms of Acute Ischaemia
feeling generally unwell
pale and cold skin
profuse sweating
feeling persistent pain or heaviness in the chest
chest pain may radiate to the left arm, jaw and back
may experience palpitations
may experience nausea
dyspnoea
First Aid for Acute Ischaemia
provide reassurance
ensure surrounding area is well ventilated
assist in a sitting position
release any tight clothing
assist with own medication if available on casualty eg. 300mg of aspirin
call 112
ask someone to get an AED
monitor
be prepared to resuscitate if need arises
Anaphylaxis & Anaphylactic Shock
Retrieved from https://homeopathy.ae/article/anaphylaxis-dangerous-allergy on 7th October 2022
Anaphylaxis happens when a person comes into contact or exposure to an allergen.
Signs & Symptoms of Anaphylaxis
changes within the skin and mucous membranes eg. rash, burning sensation, swelling of the mouth and tongue
sudden illness development
rapid ABC deterioration eg. swelling of airway structures, altered level of consciousness, dyspnoea, wheezing, cyanosis, dizziness & weakness (neurological response)
NOTE: If a casualty experiences all the above PLUS signs of shock (including pale, clammy skin), the indication would be an ANAPHYLACTIC SHOCK, which is even worse than anaphylaxis!
First Aid for Anaphylaxis & Anaphylactic Shock
identify cause (eg. if cause was an insect sting, remove it)
if unconscious, resuscitate
if unresponsive but breathing, assist into the recovery position
if patient is responsive, assist in a supine position UNLESS patient is exhibiting signs of shock, in which case, elevate legs, OR if experiencing severe dyspnoea, in which case assist in fowlers position or elevate back as much as possible
administer high concentration of oxygen
if an epipen is available on the casualty and the casualty is responsive, administer, assist in self injecting Epinephrine
NOTE: Epinephrine helps DECREASE severity of anaphylaxis, EASE bronchospasms due to causing bronchial airways to dilate, and REDUCE circulatory collapse through a triggered increase in cardiac contraction as well as reversal of peripheral vasodilation.
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Position patient in a comfortable position with caution
Perform secondary assessment and provide first aid for main complaint
Look for D.O.T.S. – deformities, open wounds, tenderness, and swelling
Take vital signs – pulse and respiratory rate especially if casualty is in a lot of pain
Take S.A.M.P.L.E. history
Retrieved from https://www.alsg.org/fileadmin/temp/Specific/Ch04_BLS.pdf on 3rd September 2022
Retrieved from https://www.alucansa.com/showroom/?ss=5_6_4_26_36&pp=basic+first+aid+training&ii=2293819 on 5th September 2022
Retrieved from https://explorefirstaid.com/what-does-dots-stand-for-in-first-aid/ on 28th September 2022
Retrieved from https://www.slideserve.com/carter/baseline-vital-signs-and-sample-history on 4th September 2022
First Aid for Fractures
Fractured Femur, Broken thigh x-rays image – Retrieved from https://www.oaidocs.com/2019/02/22/why-you-may-need-surgery-for-a-fracture/ on 28th September 2022
Signs & Symptoms of a fracture
history in relation to the injury
loss of function
locked joint
abnormal movement
exposed musculoskeletal fragments
signs of pain, tenderness, and area guarding
swelling, bruising, deformity, or crepitus (popping, clicking or cracking sounds in a joint)
Fracture Complications
bleeding
loss of function
instability
injury to the covering soft tissue
limb loss – amputation
First Aid for Fractures
provide support to the fractured area
expose injury site (eg. remove shoes)
touch the area to assess sensation
test circulation within the injured limb by pressing on area and determining whether normal colour is restored in 2 seconds
address bleeding and cover wound
immobilise area
following any intervention on the area, reassess sensation and circulation
reassure casualty
seek medical help
First Aid for Sprains
Retrieved from https://orthoinfo.aaos.org/en/diseases–conditions/sprained-ankle/ on 28th September 2022
Signs & Symptoms of a Sprain
pain, swelling and bruising
inability to use limb appropriately
NOTE: signs and symptoms of a sprain are very similar to a fracture…if in doubt, treat as a fracture!
First Aid for Sprains & Strains
follow the R.I.C.E. acronym…
R – rest (and remove footwear)
I – use ice packs on area for not more than 10 minutes to reduce pain and swelling
C – compress using bandage
E – elevate affected limb
Retrieved from https://twitter.com/spinalogy/status/759244714583396352?lang=hr on 28th September 2022
Trauma Amputation First Aid
Retrieved from https://www.jenonline.org/article/S0099-1767(05)00152-2/fulltext on 28th September 2022
First Aid on Stump
control bleeding
address shock
irrigate area using saline water or water
remove gross debris
apply dressing
elevate limb
ensure casualty comfort and reassurance
Care for Amputated Part
remove gross debris
wrap in a saline-moisted gauze
place in a plastic bag
store in a container with ice and water, ensuring that ice does not come into direct contact with severed part
DO NOT CLEAN OR WASH AMPUTATED PART WITH WATER!
Trauma to the Head, Neck & Back
Retrieved from https://medicine.wustl.edu/news/new-guidance-developed-for-children-hospitalized-with-mild-head-trauma/ on 30th September 2022
If a casualty falls from a height at least double his or her own weight, head injury should be suspected, even if there are no visible signs and symptoms. In such case, head injury should only be excluded following medical investigations.
Possible Head Trauma Consequences
surface injury – bruising or actual wounds
skull fracture – leading to lack of protection to the brain
facial fracture – causes bleeding and possible bone fragments which may lead to airway obstruction
brain injury – may lead to epidural & subdural haematoma as well as intracerebral haematoma
intracranial bleeding – eg. subarachnoid haemorrhage in the brain
concussion – soft tissue damage to the brain without evident bleeding
Indications
history of head trauma
headache
dizziness
nausea
vomiting
limb weakness and/or loss of sensation (may be a sign of neurological damage)
disorientation and/or confusing
altered level of response
seizures
Further signs may include:
unequal and/or unresponsive pupils
ecchymosis (racoon eyes)
battle’s sign (bruising around the eyes or behind the ear
rhinorrhoea (bleeding or clear liquid emerging from the nose)
otorrhoea (bleeding or clear liquid emerging from the ear/s)
halo sign (can be seen on the bedsheet under a casualty’s head)
abnormal posture (eg. stretching, flexing etc)
Assess further for…
intoxication (ask relatives if available, and look for obvious intoxication signs)
evidence suggesting a possible suicide attempt
casualty’s age (risks increase when over 65 years of age)
current treatments eg. anticoagulants
history of coagulation disorders
First Aid for Head Trauma
NOTE: prior to first aid, consider possible trauma to the cervical spine and neck…signs include an altered level of response, pain and/or tenderness, weakness, or loss of sensation in the neck/back area.
if casualty is unresponsive and not breathing, perform CPR
use sterile or, if unavailable, clean dressings for head wounds
in case of severe facial trauma clear casualty’s mouth from foreign material, blood and fragments
in case of eye injuries, DO NOT REMOVE any embedded fragments; just cover both eyes
apply ice packs on haematomas for a maximum of 15 minutes
apply pressure ALWAYS with caution
elevate the casualty’s head and shoulders
IMPORTANT: manually stabilise the head and neck, maintaining alignment to avoid complications or further damage.
Trauma to the Neck & Back
prevent movement of the casualty’s head and neck
use the jaw-thrust technique to open the airway of an unresponsive casualty
turn the casualty using the log-roll method to perform a secondary assessment or for putting into the recovery position OR
use the Haines recovery position if log-roll method cannot be used
Trauma to the Chest
Retrieved from https://www.distancecme.com/chest-wall-trauma-field-ready-facts-and-treatments/ on 30th September 2022
Complications
Trauma to the chest may lead to complications such as:
rib fracture
flail chest – consists of 2 or more broken ribs
pneumothorax – air trapped in chest that compresses the lung causing a collapsed lung, whilst also pressing onto the heart; evident in an x-ray as a dark space in the lungs; visually evident as chest asymmetry during breathing
haemothorax – same as a pneumothorax, except that blood is trapped in the chest instead of air
cardiac tamponade – build-up of blood between the pericardium and the myocardium which increases pressure on the heart, causing obstructive shock
Signs of Chest Trauma
history of trauma to the chest
severe pain
severe dyspnoea
bruising
open chest wound
shock
First Aid for Chest Trauma
leave any foreign bodies embedded in the chest – DO NOT REMOVE!
leave chest wound uncovered if not bleeding
if chest wound is oozing blood, cover with a non-occlusive dressing such as a gauze swab and apply pressure with caution
stabilise affected chest side with an arm sling
if possible, help casualty into a semi-sitting position, supporting the back
if available, administer high-concentrated oxygen
if oxygen is unavailable open windows to increase air circulation
Trauma to the Abdomen
Retrieved from https://www.lecturio.com/concepts/penetrating-abdominal-injury/ on 30th September 2022
Complications
bleeding
shock
First Aid for Abdominal Wounds
leave any foreign bodies embedded in the abdomen – DO NOT REMOVE!
cover wound with moist sterile dressing
if there are any visible protruding organs DO NOT PUSH BACK INSIDE as this may cause further complications and damage
First Aid for Abdominal Trauma Without Visible WOunds
assist casualty in a comfortable position, preferably with legs pulled towards the abdomen
monitor for deterioration
address shock if evident
Fractured Pelvis & Hips
Retrieved from https://www.healthpages.org/health-a-z/hip-fracture-older-adults/ on 30th September 2022
Signs & Symptoms
history of trauma to the pelvis or the hips
pain and tenderness
swelling
bruising
wounds
deformity
shortening/external rotation
unable to bear weight
First Aid for the Pelvis and Hips
limit casualty’s movement of the back, the pelvis, and the lower limbs
control external bleeding
splint open fractures or use body splinting for lower limbs
monitor for shock and provide first aid for shock if necessary
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Compromised airway can result from three issues, namely obstruction, constriction, or trauma.
Obstruction can happen through tongue positioning, foreign body, vomiting, or aspiration
Constriction a.k.a. swelling can happen in the mouth, by the tongue, or due to airway structures
Trauma can be either maxillo-facial (trauma to the jaw and face) or mandibular (trauma to the lower jaw)
Assessment for Compromised Airway
1. look
Watch out for accessory muscle use, tracheal tug, or paradoxical (see-saw) chest-abdo movements…
2. Listen
Can you hear any gurgling, stridor, snoring or hoarseness coming out of the casualty’s mouth?
3. feel
Can you feel air moving in and out of the casualty’s mouth or nose?
First Aid for Compromised Airway by Foreign Bodies
If a person coughs excessively whilst eating, keep a hands-off approach and encourage the person to cough. Coughing signifies that air is still going in and out of the lungs, thus, encourage to deep breathe and cough as hard as possible to cough out the obstructed foreign body.
If the person is not coughing, or coughing is ineffective, follow the 3 first aid maneuvers for compromised airway by foreign body listed below:
Back Blows
give up to 5 back slaps – hit back from low direction upwards (least effective, least damaging)
Abdominal Thrusts
perform up to 5 abdominal thrusts (moderately effective, moderately damaging – may cause organ rupture)
Chest Thrusts
perform up to 5 chest thrusts (most affective, most damaging – casualty needs to be taken to hospital following chest thrusts to have internal organs checked due to possible damage)
NOTE: If obstruction doesn’t get cleared out, the casualty eventually collapses. At this point perform CPR and before giving mouth-to-mouth check inside the mouth to see if object has dislodged with compressions.
Paediatric Compromised Airway
Babies usually deal with choking on their own, without needing first aid
DO NOT perform abdominal thrusts on infants, since doing so may cause liver rupture. Instead, perform chest thrusts and back blows
Narcan (Naloxone)
Narcan (Naloxone) is a medication used to block the effects of opioids. It is commonly used in the case of decreased breathing triggered by opioid overdose such as in heroin overdose.
Naxolone may be combined with an opioid to decrease the risk of opioid misuse.
Retrieved from https://www.princeedwardisland.ca/en/information/health-and-wellness/preventing-opioid-related-overdoses on 27th September 2022
Retrieved from https://rightpathaddictioncenters.com/opiate-withdrawal/ on 27th September 2022
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Wounds are skin breakages caused by injury. Complications in relation to wounds include bleedingand infection.
Types of Wounds
incision – a cut, such as one made with a knife
laceration – pulled off skin
abrasion – wound caused by friction
contusion – a.k.a. bruising
puncture wound – wound caused by a pointy object eg. nail
Retrieved from https://emedicodiary.com/que/437/wound on 20th September 2022
First Aid for Traumatic Wounds
There are 3 concepts required in providing immediate care for traumatic wounds:
control the bleeding
clean the wound
protect the wound
1. Control the Bleeding
Step 1: wear gloves to protect self from casualty’s blood
Step 2: control the bleeding
Step 3: assess for shock & if suspected, provide first aid for shock
Step 4: call 112 for assistance
2. Clean The Wound
Step 5: once the bleeding is under control, irrigate the wound with running water
Step 6: remove gross debris
3. Protect The Wound
Step 7: cover wound with a clean cloth or sterile dressing if available
Step 8: seek medical advice as required
NOTE: DO NOT remove any foreign objects embedded in wounds! Such objects need to be removed in a hospital setting, with adequate pain relief. If foreign object is embedded, apply bandaging to hold it in place until casualty arrives at the hospital.
First Aid for Particular Types of Wounds
Fracture site wounds
If there is a visible fracture at the injury site, or a fracture is suspected, do not apply a lot of pressure to stop the bleeding since this would cause a lot of pain, as well as create further problems with the fracture. In such case you can still irrigate the wound by running water.
Thoracic Wounds
When dealing with thoracic wounds, do not apply too much pressure to stop the bleeding. Additionally, leave the chest wound uncovered. You may clean the area surrounding the wound, but there is no need to irrigate the wound with running water.
Abdominal Wounds
If an injury to the abdomen causes the intestines to be pushed out of the abdomen, do not attempt to push them back inside the casualty, as this may cause serious damage. Instead, use a moist sterile cloth and cover the intestines, or else leave the intestines uncovered and wait for the ambulance to arrive.
Burns
Burns occur when the body is exposed to thermal, chemical, or electrical energy which leads to skin loss and damage to the underlying tissue. Complications arising from burns include tissue damage, fluid loss, heat loss, and infection.
Types of Burns
thermal burns – flames, hot objects, flash burns, radiation, hot liquids, and steam burns
chemical/corrosive burns
electrical burns – caused by electric conduction which usually causes 2 wounds: a small entry wound and a larger wound at the earthing area; electrical burns can easily cause a cardiac arrest!
The severity of an injury caused by a burn depends on factors such as the site of injury, the depth and extent of injury, the cause, as well as the casualty’s age, prior health status and additional injuries.
Burn Depth
1. Superficial Burn
In a superficial burn, the burn affects only the epidermis of the skin. Signs of a superficial burn include:
pain
redness
blanches with pressure
absent oedema
2. Partial Burn
In a partial burn, the burn affects both the epidermis and the dermis. In such burns, blisters may appear, which are fluid-filled located between the epidermis and the dermis. NEVER burst a blister unless in a hospital setting! Signs of a partial burn include:
pain
blisters
moisture
3. Full Burn
In a full burn, the burn uncovers the structure of the affected area – structures such as muscles and bones. Nerves are usually burned in these types of burns, which causes the casualty to experience no pain sensation. Signs of a full burn include:
uncovered structures
discolouration
dryness
absent pain
Retrieved from https://suprathelu.com/row/ on 20th September 2022
Measuring the Extent of a Burn
Method #1: The Palmar Method
Method #2: The Rule of 9’s
Retrieved from https://twitter.com/hp_ems/status/1421585002073149445 on 20th September 2022
Managing Burn Injuries
In burn injuries the main aims are to:
reduce pain
reduce the burning process
protect the injury
cool burn down with running water
remove ALL burnt clothing
cover burned area with a moist dressing and keep it wet so it doesn’t stick to the burnt area
if a moist dressing is not available, cover the area with plastic film
seek medical attention
DO NOT use any creams to treat burns.
DO NOT use ice to calm down the burning sensation as ice can cause a burn too.
DO NOT remove any clothing that is seemingly stuck to the burnt area.
First Aid for Other Types of Burns
Electrocution burn
Whilst an electrocuted casualty may not experience a cardiac arrest immediately, it is still possible after some time. Thus, if the casualty complains of chest pain and dyspnoea, get ready to resuscitate as a cardiac arrest may become quite possible.
Liquid chemical burn
If a casualty experiences a liquid chemical burn, flood burned area with water.
Dry Powder Chemical Burn
In the case of dry powder chemical burns, brush dry powder off, making sure it is still safe for you, and then flood with water.
NOTE: Inhaling hot or chemical fumes causes burns within the airway and the lungs. Thus, a casualty experiencing inhalation in such cases should go to the hospital for treatment as soon as possible.
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