NJ emt
Describe the anatomy and function of the following major body systems: Respiratory, Circulatory, Musculoskeletal, Nervous, and Endocrine.
Respiratory System:
Anatomy: Consists of the airways (nose, mouth, pharynx, larynx, trachea, bronchi, and bronchioles), lungs, and the muscles of respiration (diaphragm and intercostal muscles).
Function: Facilitates gas exchange, allowing oxygen to enter the bloodstream and carbon dioxide to be expelled. It maintains the body's pH balance and supplies oxygen to tissues for metabolism.
Circulatory System:
Anatomy: Includes the heart, blood vessels (arteries, veins, capillaries), and blood.
Function: Transports oxygen, nutrients, hormones, and waste products throughout the body. The heart pumps oxygenated blood from the lungs to the body and returns deoxygenated blood back to the lungs.
Musculoskeletal System:
Anatomy: Comprises bones, muscles, tendons, ligaments, and connective tissues.
Function: Provides structure, support, and protection to the body. It facilitates movement through muscle contraction and joint articulation. It also stores minerals and produces blood cells in the bone marrow.
Nervous System:
Anatomy: Divided into the central nervous system (brain and spinal cord) and peripheral nervous system (nerves branching out from the spinal cord).
Function: Controls and coordinates body activities by transmitting signals between different body parts. It processes sensory information and initiates responses, including voluntary movements and involuntary actions like reflexes.
Endocrine System:
Anatomy: Consists of glands such as the pituitary, thyroid, adrenal, pancreas, and gonads.
Function: Regulates body functions through the secretion of hormones into the bloodstream. Hormones control growth, metabolism, reproduction, and stress responses.
2. List the signs of inadequate breathing.
Increased or decreased respiratory rate (tachypnea or bradypnea)
Irregular breathing patterns
Use of accessory muscles (neck, chest, abdomen)
Nasal flaring (especially in children)
Retractions (skin pulling in around ribs or above the clavicles)
Cyanosis (bluish discoloration of the skin, lips, or nail beds)
Shallow or labored breathing
Decreased or absent breath sounds upon auscultation
Altered mental status due to hypoxia
Tripod positioning (leaning forward to breathe easier)
3. Discuss the reason for performing a focused history and physical exam.
Performing a focused history and physical exam allows EMTs to:
Identify life-threatening conditions quickly.
Gather specific information related to the patient's chief complaint.
Tailor assessment and interventions to the patient's immediate needs.
Detect signs and symptoms that may not be immediately apparent.
Make informed decisions about patient care and prioritize treatment.
Provide accurate information to receiving healthcare facilities.
4. Identify the medications with which the EMT-Basic may assist the patient with administering.
EMT-Basics may assist patients with the following prescribed medications:
Epinephrine Auto-Injectors (e.g., EpiPen) for anaphylaxis
Metered-Dose Inhalers (MDIs) containing bronchodilators (e.g., albuterol)
Nitroglycerin tablets or sprays for chest pain (angina)
Oral Glucose for hypoglycemia
Aspirin for chest pain suspected to be cardiac in origin
Activated Charcoal for certain poisonings (as directed by medical control)
5. Explain the rationale for the administration of medications.
Administering medications in the prehospital setting aims to:
Provide immediate relief of symptoms.
Stabilize the patient's condition before reaching the hospital.
Prevent deterioration of the patient's condition.
Address life-threatening emergencies (e.g., anaphylaxis, asthma attacks, cardiac chest pain).
Ensure timely intervention, which can be critical for patient outcomes.
6. List the structure and function of the respiratory system.
Structures:
Upper Airway: Nose, mouth, pharynx (nasopharynx, oropharynx, laryngopharynx), larynx.
Lower Airway: Trachea, bronchi, bronchioles, alveoli.
Supporting Structures: Diaphragm, intercostal muscles, pleura.
Functions:
Air Conduction: Transporting air to and from the lungs.
Gas Exchange: Occurs in the alveoli where oxygen enters the blood, and carbon dioxide is removed.
Protection: Mucus and cilia trap and expel foreign particles.
Phonation: Vocal cords in the larynx allow for speech.
Olfaction: Sense of smell through receptors in the nasal cavity.
7. Defend EMT-Basic treatment regimens for various respiratory emergencies.
EMT-Basic treatments are designed to:
Ensure Airway Patency: By positioning, suctioning, or using airway adjuncts.
Provide Adequate Ventilation: Through assisted ventilations with bag-valve masks when necessary.
Administer Oxygen Therapy: To improve oxygenation in hypoxic patients.
Assist with Prescribed Medications: Such as bronchodilators for asthma or COPD exacerbations.
Monitor Vital Signs: To detect changes in the patient's condition.
Rapid Transport: To ensure the patient receives advanced care promptly.
These interventions are crucial for preventing respiratory failure and ensuring the patient's survival until they reach definitive care.
8. List signs of adequate air exchange.
Normal respiratory rate (12-20 breaths per minute for adults)
Regular and unlabored breathing pattern
Equal chest rise and fall
Clear and equal breath sounds bilaterally
Normal skin color (pink, warm, and dry)
Alert mental status
Normal oxygen saturation levels (95-100% on pulse oximetry)
Ability to speak in full sentences without distress
9. State the generic name, medication forms, dose, administration, action, indications, and contraindications for the prescribed inhaler.
Generic Name: Albuterol (common bronchodilator)
Medication Forms: Metered-dose inhaler (MDI), nebulizer solution
Dose: Typically 1-2 inhalations (as prescribed)
Administration: Patient inhales medication through the inhaler device
Action: Relaxes bronchial smooth muscle, leading to bronchodilation
Indications: Asthma exacerbation, bronchospasm due to COPD
Contraindications:
Hypersensitivity to the medication
Maximum prescribed dose already taken
Lack of prescription for the patient
10. Describe the structure and function of the cardiovascular system.
Structure:
Heart: Four-chambered muscular organ (two atria, two ventricles)
Blood Vessels: Arteries, veins, capillaries
Blood: Plasma, red blood cells, white blood cells, platelets
Function:
Circulation of Blood: Delivers oxygen and nutrients to tissues
Removal of Waste Products: Transports carbon dioxide and other wastes to excretory organs
Regulation of Body Temperature: Through vasodilation and vasoconstriction
Protection: White blood cells fight infection; platelets aid in clotting
11. Explain the importance of prehospital Advanced Cardiac Life Support (ACLS) intervention if it is available.
Prehospital ACLS interventions are vital because they:
Provide advanced airway management and ventilation
Allow for the administration of cardiac medications
Enable early defibrillation for arrhythmias like ventricular fibrillation
Improve patient survival rates during cardiac emergencies
Bridge the gap between basic life support and hospital care
12. Differentiate between the fully automated and the semi-automated defibrillator.
Fully Automated Defibrillator:
Analyzes the patient's heart rhythm automatically
Delivers a shock without operator input if a shockable rhythm is detected
Minimizes the need for user decision-making
Semi-Automated Defibrillator:
Analyzes the heart rhythm automatically
Requires the operator to press a button to deliver the shock
Allows the user to confirm safety before shock delivery
13. State the reasons for assuring that the patient is pulseless and apneic when using the automated external defibrillator (AED).
Safety: Avoids unnecessary shocks to patients who do not need defibrillation
Efficacy: AEDs are designed to treat ventricular fibrillation or pulseless ventricular tachycardia
Prevent Harm: Shocking a patient with a pulse can cause arrhythmias
Resource Management: Ensures appropriate use of the AED
14. Explain the considerations for interruption of CPR when using the AED.
Minimize Interruptions: To maintain blood flow to vital organs
Timing: Pause CPR only when necessary for rhythm analysis and shock delivery
Duration: Keep pauses under 10 seconds if possible
Coordination: Team members should be prepared to resume CPR immediately after shock
15. Discuss the use of remote defibrillation through adhesive pads.
Adhesive Pads:
Allow for hands-free defibrillation
Reduce the risk of accidental shock to rescuers
Provide better skin contact and reduce impedance
Placement:
Pads are placed in the anterior-lateral or anterior-posterior positions
Benefits:
Quicker application
Continuous monitoring without interruption
16. List the indications for automated external defibrillation (AED).
Unresponsive patient
Absence of normal breathing (apnea)
Absence of a palpable pulse (pulselessness)
Suspected sudden cardiac arrest
Patient aged typically over 1 year (depending on protocols)
17. List the components of post-resuscitation care.
Continuous monitoring of vital signs
Maintenance of airway and breathing support
Reassessment of the patient's condition
Management of underlying causes
Preparation for transport to an appropriate medical facility
Documentation of interventions and patient response
18. Explain the importance of frequent practice with the AED.
Skill Retention: Ensures proficiency in AED operation
Confidence: Builds confidence in using the device during emergencies
Efficiency: Reduces response time and errors
Updates: Keeps up with changes in protocols and device functions
19. Discuss the role of the American Heart Association (AHA) in the use of AEDs.
Guidelines Development: Provides evidence-based recommendations for resuscitation
Training Programs: Offers courses like BLS and ACLS that include AED use
Public Awareness: Promotes AED availability and use in the community
Research Support: Funds studies to improve cardiac arrest outcomes
20. List the indications for the use of nitroglycerin.
Chest pain suspected to be of cardiac origin (angina)
Patient has a prescription for nitroglycerin
Systolic blood pressure typically above 100 mmHg (per protocols)
Medical control authorization
21. State the contraindications and side effects for the use of nitroglycerin.
Contraindications:
Hypotension (systolic BP below protocol threshold)
Recent use of erectile dysfunction medications (e.g., sildenafil) within 24-48 hours
Known hypersensitivity to nitroglycerin
Severe anemia or increased intracranial pressure/TBI
Side Effects:
Headache
Dizziness or lightheadedness
Hypotension
Reflex tachycardia
Flushing of the skin
22. Define the function of all controls on an AED, and describe event documentation and battery defibrillator maintenance.
AED Controls:
Power Button: Turns the device on/off
Shock Button: Delivers defibrillation when prompted
Analysis Button: Initiates heart rhythm analysis (if not automatic)
Pads Connector: Connects the electrode pads to the AED
Indicator Lights/Display: Provides prompts and status information
Event Documentation:
Record time of collapse, CPR initiation, and AED application
Document number of shocks delivered and patient response
Note any changes in rhythm or vital signs
Battery and Defibrillator Maintenance:
Regularly check battery levels and replace as needed
Perform routine device checks according to manufacturer guidelines
Ensure pads are within expiration dates
Keep the device clean and in good working condition
23. Defend the reasons for obtaining initial training in AED use and the importance of continuing education.
Initial Training:
Provides foundational knowledge and skills for AED operation
Ensures understanding of protocols and safety measures
Prepares responders for real-life emergencies
Continuing Education:
Updates on new guidelines and technological advancements
Reinforces skills to prevent degradation over time
Encourages best practices and improves patient outcomes
24. Defend the reason for maintenance of AEDs.
Reliability: Ensures the device functions correctly during emergencies
Safety: Prevents malfunctions that could harm patients or rescuers
Compliance: Meets legal and regulatory requirements
Longevity: Extends the lifespan of the equipment
Readiness: Guarantees the AED is ready for immediate use
25. Explain the impact of age and weight on defibrillation.
Age Considerations:
Pediatric patients require adjusted energy doses
Special pediatric pads or settings are used for children under 8 years or under 55 lbs (25 kg)
Weight Considerations:
Obese patients may need higher energy settings (handled by device algorithms)
Adequate pad placement is crucial for effective defibrillation regardless of body size
26. Discuss the position of comfort for patients with various cardiac emergencies.
Positions:
Semi-Fowler's Position: Sitting up at a 45-degree angle, beneficial for chest pain or difficulty breathing
Supine Position: Lying flat, used if the patient is hypotensive
Recovery Position: On the side, if the patient is unresponsive but breathing adequately
Rationale:
Positions that reduce workload on the heart and ease breathing
Improves venous return and oxygenation
Enhances patient comfort and reduces anxiety
27. Predict the relationship between the patient experiencing cardiovascular compromise and basic life support.
Cardiovascular compromise can lead to decreased perfusion and oxygenation
Early recognition and initiation of BLS (CPR and AED use) are critical
BLS maintains circulation and ventilation until advanced care is available
Rapid BLS interventions improve survival rates in cardiac emergencies
28. Identify the patient taking diabetic medications with altered mental status and the implications of a diabetes history.
Identification:
Medical alert bracelets or information from bystanders
Presence of insulin or oral hypoglycemic agents
Signs of hypoglycemia (sweating, tremors, confusion)
Implications:
Altered mental status may be due to hypoglycemia or hyperglycemia
Immediate glucose administration may be required
History guides treatment decisions and transport priority
29. Establish the relationship between airway management and the patient with altered mental status.
Altered mental status can lead to loss of airway protective reflexes
Risk of airway obstruction due to the tongue or aspiration
Requires vigilant monitoring and possible airway adjuncts
Ensures adequate oxygenation and ventilation to prevent further deterioration
30. Explain the rationale for administering oral glucose.
Purpose: To raise blood glucose levels in hypoglycemic patients
Indications: Known diabetes with signs of hypoglycemia and ability to swallow
Mechanism: Provides a rapid source of glucose absorbed through the oral mucosa and GI tract
Outcome: Improves mental status and prevents progression to unconsciousness
31. Describe the emergency medical care of the patient with an allergic reaction.
Assessment:
Identify signs of an allergic reaction (hives, itching, swelling)
Monitor airway for signs of compromise (stridor, wheezing)
Interventions:
Maintain airway and assist ventilations if needed
Administer oxygen
Assist with patient's prescribed epinephrine auto-injector if indicated
Monitor vital signs and prepare for rapid transport
32. Describe the mechanisms of allergic response and the implications for airway management.
Mechanisms:
Exposure to allergen triggers immune response
Release of histamines and other mediators
Causes vasodilation, increased permeability, bronchoconstriction
Implications:
Swelling of airway structures (tongue, pharynx, larynx)
Bronchospasm leading to difficulty breathing
Requires prompt airway management to prevent asphyxiation
33. State the generic and trade names, medication forms, dose, administration, action, and contraindications for the epinephrine auto-injector.
Generic Name: Epinephrine
Trade Names: EpiPen, Adrenaclick
Medication Form: Auto-injector device
Dose: Typically 0.3 mg for adults, 0.15 mg for children
Administration: Intramuscular injection into the lateral thigh
Action: Vasoconstriction, bronchodilation, reduces swelling
Contraindications: None in life-threatening anaphylaxis
34. Differentiate between patients having an allergic reaction and those requiring immediate use of an epinephrine auto-injector.
Mild Allergic Reaction:
Localized hives or itching
No respiratory distress or hypotension
Severe Allergic Reaction (Anaphylaxis):
Signs of airway swelling or respiratory compromise
Hypotension or signs of shock
Multiple body systems involved
Requires immediate administration of epinephrine
35. List various ways that poisons enter the body.
Ingestion: Swallowing substances (drugs, chemicals)
Inhalation: Breathing in gases, fumes, or airborne particles
Injection: Through needles, bites, or stings
Absorption: Through skin or mucous membranes
Transplacental: From mother to fetus
36. State the generic and trade names, indications, contraindications, medication form, dose, administration, actions, side effects, and reassessment strategies for activated charcoal.
Generic Name: Activated Charcoal
Trade Names: Actidose, Liqui-Char
Indications: Certain poisonings and overdoses ingested orally
Contraindications:
Altered mental status
Ingestion of acids, alkalis, or petroleum products
Inability to swallow
Medication Form: Suspension (slurry)
Dose: Typically 1 gram/kg body weight
Administration: Orally
Actions: Adsorbs toxins in the gastrointestinal tract
Side Effects: Nausea, vomiting, black stools, potential aspiration
Reassessment: Monitor for vomiting and airway compromise
37. List the signs and symptoms of exposure to heat.
Heat Cramps:
Muscle spasms
Sweating
Heat Exhaustion:
Cool, pale, clammy skin
Weakness, dizziness
Rapid pulse and breathing
Nausea or vomiting
Heat Stroke:
Hot, flushed, dry skin
Altered mental status
Rapid, strong pulse initially, becoming weak
Potential seizures or unconsciousness
38. State the various reasons for psychological crises.
Mental health disorders (depression, anxiety, schizophrenia)
Acute stress reactions
Substance abuse
Traumatic events or loss
Medical conditions affecting the brain
Medication reactions or non-compliance
39. Discuss the characteristics of an individual's behavior which suggests that the patient is at risk for suicide.
Expressing feelings of hopelessness or worthlessness
Talking about wanting to die or kill oneself
Withdrawal from friends and activities
Sudden mood changes
Giving away possessions
Previous suicide attempts
Self-harm behaviors
Substance abuse increase
40. Discuss special medical/legal considerations for managing behavioral emergencies.
Consent: Patients may refuse care; assess decision-making capacity
Confidentiality: Maintain privacy but report if necessary (e.g., mandatory reporting laws)
Use of Restraints: Follow protocols and laws; use minimum force necessary
Documentation: Thoroughly record observations, actions, and statements
Duty to Warn: May be required to notify authorities if the patient poses a threat to themselves or others
41. Discuss the special considerations for assessing a patient with behavioral problems.
Ensure scene safety
Approach calmly and non-threateningly
Use active listening and empathy
Avoid sudden movements
Be aware of potential for violence
Involve family or friends if appropriate
Assess for medical causes of behavior changes
42. Describe how and when to cut the umbilical cord.
When:
After the cord stops pulsating (usually within 1-3 minutes)
If the cord is wrapped tightly around the neck and cannot be slipped over the head
How:
Use sterile clamps or ties
Place first clamp 6 inches from the baby
Place second clamp 2-3 inches from the first
Cut between the clamps using sterile scissors
Ensure minimal handling to prevent infection
43. List the steps in the emergency medical care of the mother post-delivery.
Monitor vital signs
Control vaginal bleeding by massaging the uterus
Encourage breastfeeding to stimulate uterine contractions
Provide emotional support
Clean perineal area
Transport to the hospital for further evaluation
44. Summarize neonatal resuscitation procedures.
Dry and warm the newborn
Clear airway if necessary (bulb syringe suction of mouth then nose)
Stimulate breathing if not initiated
Assess breathing and heart rate
If heart rate <100 bpm, begin ventilations at 40-60 breaths per minute
If heart rate <60 bpm after 30 seconds of ventilation, begin chest compressions
Reassess every 30 seconds and adjust interventions accordingly
45. Discuss the emergency medical care of a patient with a gynecological emergency.
Ensure privacy and modesty
Assess for signs of shock
Control external bleeding with sterile dressings
Do not pack or place anything inside the vagina
Provide emotional support
Gather history related to menstrual cycle, pregnancy, and symptoms
Transport promptly for further evaluation
46. Explain the rationale for understanding the implications of treating two patients (mother and baby).
Interventions may affect both patients
Prioritize care based on life threats to either patient
Be prepared for complications affecting one or both
Coordinate care to optimize outcomes for mother and child
Legal and ethical considerations in decision-making
47. Identify and explain the use of the contents of an obstetrics kit.
Sterile Gloves: For infection control
Bulb Syringe: To clear newborn's airway
Sterile Towels: To dry and wrap the baby
Umbilical Cord Clamps/Ties: To clamp the cord before cutting
Scissors/Scalpel: For cutting the umbilical cord
Sterile Pads: For absorbing blood and amniotic fluid
Plastic Bag: For placenta
Baby Cap: To keep the newborn warm
Emergency Blanket: To maintain body temperature
48. Identify predelivery emergencies.
Eclampsia/Pre-eclampsia: High blood pressure with seizures
Placenta Previa: Placenta covers cervix causing bleeding
Abruptio Placentae: Premature separation of placenta causing pain and bleeding
Prolapsed Umbilical Cord: Cord presents before the baby
Breech Presentation: Baby's buttocks or feet present first
Limb Presentation: An arm or leg presents first
49. State indications of an imminent delivery.
Strong, frequent contractions (less than 2 minutes apart)
Urge to push or have a bowel movement
Crowning (baby's head visible at vaginal opening)
Mother feels the baby is coming immediately
Rupture of membranes (water breaking) with signs of delivery
50. Differentiate the emergency medical care provided to a patient with predelivery emergencies from a normal delivery.
Predelivery Emergencies:
Do not attempt delivery in the field
Position the mother appropriately (e.g., knee-chest for prolapsed cord)
Provide high-flow oxygen
Rapid transport to a facility with obstetric capabilities
Monitor vital signs and fetal heart tones if possible
Normal Delivery:
Prepare for delivery on scene
Support the baby's head and body as it delivers
Follow standard childbirth procedures
51. State the steps in the predelivery preparation of the mother.
Ensure scene safety and privacy
Position the mother comfortably (usually semi-reclined)
Don appropriate PPE
Prepare the obstetrics kit
Explain procedures to the mother
Assess for signs of imminent delivery
Time contractions and monitor vital signs
52. Establish the relationship between body substance isolation and childbirth.
Childbirth involves exposure to blood and bodily fluids
Use of PPE (gloves, gown, eye protection, mask) prevents transmission of infectious diseases
Protects both the provider and the patient
Proper disposal of contaminated materials is essential
53. State the steps to assist in the delivery.
Encourage the mother to push during contractions
Support the perineum to prevent tearing
Guide the baby's head gently as it emerges
Check for nuchal cord and manage if present
Assist the shoulders and body as they deliver
Keep the baby at the level of the mother's vagina
Dry and stimulate the newborn
54. Describe care of the baby as the head appears.
Support the head with gentle pressure
Suction the mouth then nose if necessary
Check for umbilical cord around the neck
Gently guide the head downward to deliver the upper shoulder
Then guide upward to deliver the lower shoulder
55. Identify the developmental considerations for the following age groups: infants, toddlers, pre-school, school age, adolescent.
Infants (0-1 year):
Limited communication; nonverbal cues
Separation anxiety from caregivers
Toddlers (1-3 years):
Fear of strangers
Limited understanding; use simple language
Pre-School (3-5 years):
Imaginative; may view procedures as punishment
Explain procedures in simple terms
School Age (6-12 years):
More understanding; can follow instructions
May fear pain or bodily injury
Adolescent (13-18 years):
Concerned about body image and privacy
May be reluctant to share information
56. State the usual cause of cardiac arrest in infants and children versus adults.
Infants and Children:
Respiratory failure or airway obstruction leading to hypoxia
Trauma, congenital heart defects, or severe infections
Adults:
Cardiac arrhythmias due to coronary artery disease
Myocardial infarction (heart attack)
57. Describe the management of seizures in the infant and child patient.
Protect the child from injury
Do not restrain movements
Position on side to maintain airway
Ensure open airway; suction if necessary
Provide oxygen as needed
Monitor vital signs and level of consciousness
Transport for further evaluation
58. Summarize the indicators of possible child abuse and neglect.
Unexplained injuries or inconsistent explanations
Multiple bruises or fractures in various healing stages
Burns in patterns or shapes
Fearful behavior around caregivers
Poor hygiene, malnutrition, or lack of medical care
Delay in seeking treatment
59. Describe the medical legal responsibilities in suspected child abuse.
Mandatory reporting to appropriate authorities
Documentation of observations and statements
Provide necessary medical care
Maintain patient confidentiality within legal requirements
Avoid confrontation with caregivers on scene
60. Explain the rationale for having knowledge and skills appropriate for dealing with the infant and child patient.
Children have unique anatomical and physiological differences
Requires specialized assessment and management techniques
Early interventions can prevent deterioration
Builds trust with the child and family
Enhances patient outcomes and satisfaction
61. Describe differences in anatomy and physiology of the infant, child, and adult patient.
Airway: Smaller, more flexible in children; tongue proportionally larger
Respiratory Rate: Higher in infants and children
Heart Rate: Faster in younger patients
Blood Volume: Smaller total volume; blood loss is more significant
Body Surface Area: Larger surface area to volume ratio; more heat loss
Bones: More flexible; growth plates present
62. Understand the provider's own response (emotional) to caring for infants or children.
May experience increased stress or anxiety
Personal feelings may affect performance
Importance of maintaining professionalism
Need for debriefing and support after difficult calls
63. Differentiate the response of the ill or injured infant or child (age-specific) from that of an adult.
Infants: Crying, irritability, or lethargy
Toddlers/Pre-School: Fearful, may hide or resist examination
School Age: May cooperate but fear pain
Adolescents: May be stoic or minimize symptoms due to embarrassment
64. Differentiate between respiratory distress and respiratory failure.
Respiratory Distress:
Increased work of breathing
Adequate gas exchange maintained
Signs: Tachypnea, retractions, nasal flaring
Respiratory Failure:
Inadequate oxygenation and ventilation
Fatigue of respiratory muscles
Signs: Bradypnea, altered mental status, cyanosis
65. List the steps in the management of foreign body airway obstruction.
Conscious Infant (<1 year):
5 back blows followed by 5 chest thrusts
Conscious Child (>1 year):
Abdominal thrusts (Heimlich maneuver)
Unconscious Patient:
Begin CPR starting with chest compressions
Check for object during airway assessment
Remove object if visible, do not perform blind sweeps
66. Summarize emergency medical care strategies for respiratory distress and respiratory failure.
Respiratory Distress:
Provide oxygen via appropriate device
Position of comfort
Calm and reassure the patient
Monitor for deterioration
Respiratory Failure:
Assist ventilations with bag-valve mask
Ensure airway patency
Rapid transport
Monitor vital signs closely
67. Identify the signs and symptoms of shock (hypoperfusion) in the infant and child patient.
Tachycardia
Pale, cool, clammy skin
Delayed capillary refill (>2 seconds)
Altered mental status
Decreased urine output
Hypotension (late sign)
68. Describe the methods of determining end organ perfusion in the infant and child patient.
Assess mental status (alertness)
Check skin color, temperature, and moisture
Capillary refill time
Monitor urine output if possible
Observe for signs of respiratory distress
69. Distinguish among the terms cleaning, disinfection, high-level disinfection, and sterilization.
Cleaning: Removal of visible soil from surfaces
Disinfection: Elimination of many or all pathogenic microorganisms except spores
High-Level Disinfection: Kills all microorganisms except high levels of bacterial spores
Sterilization: Complete elimination of all forms of microbial life, including spores
70. Discuss "Due Regard For Safety of All Others" while operating an emergency vehicle.
Definition: Operating with consideration for the safety of others on the road
Legal Responsibility: Emergency vehicle drivers must follow laws and drive safely
Practices:
Obey traffic signals when possible
Use warning devices appropriately
Anticipate other drivers' actions
Maintain control of the vehicle at all times