Transcript AP-and-NIV
Anatomy and Physiology
and Non-invasive Ventilatory Support
Cheryl Needham
Sr. Clinical Marketing Manager
breathing,
•respiratory diseases, and mechanical ventilation
Conflict of Interest Disclosure(s)
I do not have any potential conflicts of interest to
disclose,
• OR
• __X_I wish to disclose the following potential conflicts
of interest:
• ____
•
•
•
•
•
•
Type of Potential Conflict/Details of Potential Conflict
____Grant/Research Support
____Consultant
____Speakers’ Bureaus
____Financial support
__X_Other
Employee of Philips Respironics
Confidential
Sector, MMMM dd, yyyy, Reference
Objectives
• Review anatomy and physiology of the respiratory system
• Discuss the etiology and pathophysiology for the following respiratory
disorders:
– obstructive disorders
– restrictive thoracic disorders
– obesity hypoventilation
– neuromuscular disorders
• Review treatment options for the respiratory management of selected
diseases
Confidential
Sector, MMMM dd, yyyy, Reference
Anatomy and Physiology
•
The Respiratory System:
Breathing and Gas Exchange
Cerebrum
Controller
Brainstem
Spinal Cord
Effector
Respiratory Muscles
Airway Vessels and Function
Result
Sensors/
Feedback
Confidential
Gas Exchange
Mechanoreceptors
Chemoreceptors
Sector, MMMM dd, yyyy, Reference
Cerebrum
Controller
Brainstem
Nervous System Divisions
Spinal Cord
• Nervous System
– Central
• brain and spinal
cord
– Peripheral
• nerves transmitting
impulses to/from the
brain
• Basic components
– brain, spinal cord, nerves
– neurons are basic cells
that carry impulses from
one part of the body to
another
Confidential
Sector, MMMM dd, yyyy, Reference
Cerebrum
Controller
Brainstem
Spinal Cord
Central Nervous System (CNS)
• Factors that may impact
breathing include:
– drug administration
– changes or damage to the
brain due to various
diseases (ALS, dementia,
stroke)
– loss or severing of motor
neurons
Confidential
Sector, MMMM dd, yyyy, Reference
Cerebrum
Controller
Brainstem
Peripheral Nervous System (PNS)
Spinal Cord
• Further divided into 2 subsystems
– Somatic (voluntary)
– Autonomic (involuntary)
• Somatic System
– controls skeletal muscles
– voluntary movements
Relays signals to and from the brain!
Confidential
Sector, MMMM dd, yyyy, Reference
Cerebrum
Controller
Brainstem
Peripheral Nervous System (PNS)
Spinal Cord
• Autonomic system divided into 2
branches:
– Parasympathetic
• conserves energy and
restores body’s resources
for rest and digestion (breed
or feed)
– Sympathetic
• mobilizes person during
emergency or stress
situations (fight or flight)
Confidential
Sector, MMMM dd, yyyy, Reference
Effector
Respiratory Muscles
Airway Vessels and Function
Respiratory Muscles and Rib Cage
• The diaphragm is the main
muscle for respiration
– primary muscle for inspiration
• There are also muscles found
surrounding the rib cage
– move the rib cage during
inspiration and exhalation
Confidential
Sector, MMMM dd, yyyy, Reference
Effector
Respiratory Muscles
Airway vessels and Function
Respiratory Muscles and Rib Cage
• Function during inspiration:
– diaphragm contracts and moves
downward.
– pressure is lower in the thoracic
cage causing air to come into the
lungs
• Function on exhalation:
– diaphragm relaxes and moves
upward compressing the lungs
– pressure is higher in the lungs
causing air to move out of the lungs
Confidential
Sector, MMMM dd, yyyy, Reference
Effector
Respiratory Muscles
Airway Vessels and Function
Accessory Muscles - Inspiration
• Function to either raise the
ribcage or stabilize it
• May be used for forced or deep
breathing in normal conditions
(i.e., exercise)
• Use of accessory muscles for
resting inspiration is
considered abnormal
– If used, patient may be
having difficulty breathing
http://medicine.ucsd.edu/clinicalmed/lung.htm
Confidential
Sector, MMMM dd, yyyy, Reference
Effector
Respiratory Muscles
Airway Vessels and Function
Accessory Muscles - Expiration
• Expiration should require no
effort due to the normal
function of the lungs
• Any muscle usage for
expiration is considered
abnormal
• Accessory muscles of
expiration include those found
on the
– back, thorax, abdomen
• Aids exhalation by pulling the
ribcage down or supporting it
http://www.emedicine.com/pmr/images/
Confidential
Sector, MMMM dd, yyyy, Reference
Effector
Respiratory Muscles
Airway Vessels and Function
Airway Vessel and Function
• The respiratory system is made up of
2 main sections:
– conducting airway
– gas exchange area
• The conducting airway moves fresh
gas from the atmosphere into the
respiratory system
• The airway is made of a series of
channels that lead the fresh gas to
the gas exchange area:
– alveolar sacs
Confidential
Sector, MMMM dd, yyyy, Reference
Center Court at Wimbledon
vs. Your Lungs
Effector
Respiratory Muscles
Airway Vessels and Function
They have the same surface area!
What do they have in
common?__________________________________
Confidential
Sector, MMMM dd, yyyy, Reference
Result
Gas Exchange
• Goal of inspiration
– move air to the area of the lung
that will allow gas exchange to
occur
• alveolar sac
• Pressure gradients determine if gas
exchange occurs.
• Pressure gradient must exist
– higher in the lungs, lower in the
blood
Confidential
Sector, MMMM dd, yyyy, Reference
Gas Exchange
Result
Gas Exchange
• In addition to fresh gas and
movement of the pulmonary
muscles, the alveolar units
must have blood going past the
alveolar sac
• The combination of fresh gas
and blood allows for gas
exchange to occur
– normal O2 levels for an
adult: 80 – 100 mmHg
– normal PCO2 levels for an
adult: 35 – 45 mmHg
Confidential
Sector, MMMM dd, yyyy, Reference
Gas Exchange
Result
Gas Exchange: Problems
• There can be many reasons why gas exchange does not occur, such as:
– poor perfusion of the pulmonary system
– destruction of the alveolar sacs
– inability to move gas into the alveolar sacs
• decreased lung expansion
• conduction problem with nervous system impulse
• muscular weakness
– combination of factors
Confidential
Sector, MMMM dd, yyyy, Reference
Gas Exchange
Respiratory Disorders in the Sleep Lab
•
Respiratory System Disorders
• Obstructive disorders
– patient will have difficulty
exhaling used gases
• Restrictive disorders
– patient will have difficulty
inhaling fresh gases
• Obesity hypoventilation
• Neuromuscular disorders
Confidential
Sector, MMMM dd, yyyy, Reference
Obstructive - COPD
• A group of abnormal pulmonary
conditions associated with cough,
sputum production, dyspnea,
airflow obstruction, and impaired
gas exchange
– emphysema
– chronic bronchitis
– asthma
Confidential
Chronic Bronchitis
COPD
Emphysema
Sector, MMMM dd, yyyy, Reference
Asthma
Overlap Syndrome
• Introduced by Dr. David Flenley1
• Overlap Syndrome is used to describe the
association of OSA and COPD
• Overlap syndrome is estimated in about 10 –
15% in COPD population2
• About 30% of COPD patients will experience
nocturnal desaturation,
• Small percentage will have Overlap Syndrome
Flenley DC. Clin. Chest Med. 1985:6(4)651-666
2 McNicolas, W. Chest 2000:117:488-538
1
Confidential
Sector, MMMM dd, yyyy, Reference
Impact of Sleep
• COPD patients may have more hypopneas vs. apneas
• Patients with moderate to severe COPD may have a marked response
to REM sleep states with dramatic drop in oxygenation
• Patients may have nocturnal desaturation without having daytime
desaturation
• Factors that will impact extent of Overlap Syndrome
– Hypoventilation
– Desaturation during NREM & REM sleep
– Alterations in ventilation vs. perfusion with body position
– Daytime PaO2 and PaCO2
Confidential
Sector, MMMM dd, yyyy, Reference
Relationship between OSA and COPD:
Sleep Heart Health Study
• Evaluated polysomnography and spirometry results of 5954 patients
enrolled in SHHS.
• Aim of study:
– evaluate the association between OSA and COPD
– evaluate the impact of desaturation on patients with COPD both
with and without OSA
• A total of 1132 studied had mild obstructive airway disease
Sanders, et al AJRCCM 2003:7 - 14
Confidential
Sector, MMMM dd, yyyy, Reference
Restrictive Thoracic Disorders
My character was
based on a friend of
Walt Disney’s who had
MG
• Neuromuscular disease
– Amyotrophic Lateral Sclerosis (ALS)
– Guillain-Barre’ (GB) and Myasthenia
Gravis (MG)
• Obesity hypoventilation
• Chest wall deformities
– skeletal disorders
– kyphosis/scoliosis
• All forms lead to hypoventilation
of the lung regions and
atelectasis
Confidential
Sector, MMMM dd, yyyy, Reference
Amyotrophic Lateral Sclerosis (ALS): Etiology
• A progressive degenerative
disease that affects nerve cells in
the brain and the spinal cord
• When the motor neurons die, the
ability of the brain to initiate and
control muscle movement is lost
– voluntary muscle action is
progressively lost
ALS is often referred to as
"Lou Gehrig's Disease"
Confidential
Sector, MMMM dd, yyyy, Reference
Etiology and Anatomical Changes
•Weakened bulbar muscles can cause closing of the airway
•Nerve and muscle functions relax during sleep causing underventilation
– complaints of morning headaches, lethargy, and shortness of breath
(SOB)
Living with ALS: Adapting to Breathing Changes, 1997, ALS Assoc.
Confidential
Sector, MMMM dd, yyyy, Reference
Obesity Hypoventilation Syndrome (OHS): Etiology
• Absence of significant lung or
respiratory disease1
• May result from both a defect in
the brain's control over breathing
and excessive weight against the
chest wall
– makes it hard for a person to
take a deep breath
– inefficient breathing leads to
lower PO2 levels and higher
PCO2 levels in the blood when
awake
May be referred to as “Pickwickian Syndrome”
Banerjee, D. and et al. Chest 2007;131;1678-1684
Confidential
Sector, MMMM dd, yyyy, Reference
Signs and Symptoms
• Extreme obesity
• Often exhibit the following:
– tired due to sleep loss
– poor sleep quality
– chronic hypoxia
• Difficulty breathing when supine
• OSA plus OHS may cause
severe O2 desaturation during
sleep
Confidential
Sector, MMMM dd, yyyy, Reference
Confidential
Sector, MMMM dd, yyyy, Reference
Complex apnea and central apnea
Confidential
Sector, MMMM dd, yyyy, Reference
Treatment Options
•
Sleep Disordered Breathing
OSA
Central
Hypoventilation
Noninvasive Ventilation
CPAP
BiPAP
Volume Assured
Pressure Support
Confidential
Sector, MMMM dd, yyyy, Reference
Bilevel patient types
Confidential
Sector, MMMM dd, yyyy, Reference
34
Bi-level S/T mode
• Bi-level support with Spontaneous and Timed mode activated
• This mode is used with patients that require
– Time rate from the device to support their inconsistent respiratory
pattern
– Pressure support to augment their tidal volume when the device
provides a breath to the patient
– Ability to receive
spontaneously initiated breaths
or timed back up breaths from
the device
Confidential
Sector, MMMM dd, yyyy, Reference
Bi-level Pressure Delivery
Bi-level Devices provide pressure with a variable volume delivery
600 cc
455 cc
450 cc
300 cc
VT
P
12 cm H2O
12 cm H2O
12 cm H2O
Over time - static pressure therapy with variable volume delivery may not provide
adequate therapeutic support for progressive disease states patient conditions:
• ALS
• Overlap Syndrome (COPD + OSA)
• OHS (obesity hypoventilation syndrome)
Confidential
Sector, MMMM dd, yyyy, Reference
Consensus Conference
“…in patients with neuromuscular disease … recent reviews
have cited the advantages of pressure targeted devices for
comfort and their ability to compensate for leaks.”
“pressure targeted systems are not able to guarantee a
minimum minute ventilation.”
Source: Consensus Conference Chest 1999: “Clinical Indications for Noninvasive Positive Pressure Ventilation in Chronic
Respiratory Failure Due to Restrictive Lung Disease, COPD, and Nocturnal Hypoventilation”
Confidential
Sector, MMMM dd, yyyy, Reference
Bi-level with Volume Assurance
• Acts primarily as a bi-level pressure support device but is able to
provide a constant tidal volume.
• Automatically adjusts the pressure support level to maintain a
consistent tidal volume
– Pressure will automatically
increase or decrease to
maintain set tidal volume
Confidential
Sector, MMMM dd, yyyy, Reference
Bi-level with Volume Assurance
• Automatically adjusts the pressure support level to maintain a
consistent tidal volume
• IPAP will automatically increase or decrease
Confidential
Sector, MMMM dd, yyyy, Reference
Volume Assurance with PS is NOT
recommended for patients with periodic breathing
• Treatment of periodic breathing requires a variable breath by breath
response system so the patients PaCO2 stabilizes quickly
– Prevents overshooting or undershooting the PaCO2 breath by
breath
– Does not augment the patients tidal volume consistently
• Volume Assurance with PS does not have a quick variable response to
changes in tidal volume.
– It is designed to adjust and maintain a constant tidal volume with
each breath over time.
– This benefit often seen with patients who have slow declines in their
ventilatory conditions.
Confidential
Sector, MMMM dd, yyyy, Reference
Advanced NIV Titration Goals
Titration Goals:
Airway management, stabilize breathing patterns
by
monitoring patient’s response
and
adjusting user set parameters if needed
for
optimal therapy efficacy and adherence
Confidential
Sector, MMMM dd, yyyy, Reference
Sleep Disordered Breathing
OSA
Central
Hypoventilation
Noninvasive Ventilation
CPAP
BiPAP
Auto Servo
Ventilation
Confidential
Sector, MMMM dd, yyyy, Reference
Servo ventilation patient types
Confidential
Sector, MMMM dd, yyyy, Reference
45
Treatment options for complex sleep apnea
• CPAP + time on therapy to reset chemoreceptors for patient1
– Must qualify with RDI > 5 with symptoms of OSA or RDI > 15
without symptoms 2
– 30-day trial on CPAP then follow up with patient on excessive
daytime sleepiness, if improved keep on CPAP
• No improvement in daytime sleepiness after 30 days, try alternatives
– Medications + CPAP
– Auto Servo Ventilation
– Bi-Level therapy with backup rate
• RAD policy for complex sleep apnea
1 Dernaika T et.al; Chest 2006 s;130(4)129
2 Adult Sleep Apnea Task Force, AASM, ; Journal of Clinical Sleep Medicine 2009; 5(3)
Confidential
Sector, MMMM dd, yyyy, Reference
46
Servo Ventilation
• Treatment for complicated breathing
patterns such as:
– Central apnea
– Complex apnea
– Periodic breathing such as CSR
• Provides non-invasive ventilatory
support to treat adult patients with OSA
and respiratory insufficiency caused by
central and/or mixed apneas and
periodic breathing.
47
Confidential
Sector, MMMM dd, yyyy, Reference
Complex sleep apnea patients may challenge even
the most experienced, skilled sleep technologist!
• Complex sleep apnea patients have multiple pathologies each requiring the
attention of the technologist
• Helpful hints for complex sleep apnea titrations
– Obstructive apneas, obstructive hypopneas, central apneas,
hypopneas, RERAs and periodic breathing may all be present
intermittently throughout the sleep period
– Making the patients 100% normal may not be a realistic goal
– Optimizing therapy within a range the patients tolerates, will be
compliant with and makes them much better than they were is an
achievable goal
– Patience is key to successful titrations
– If a change is needed and made, Watch, Wait, Observe and Think
before making any other adjustments
Confidential
Sector, MMMM dd, yyyy, Reference
Why not use auto servo ventilation for a
neuromuscular diseased patient?
• Would continually reset it’s baseline, worsening the
hypoventilation
• Normal target continues to decrease – continues to
under ventilate patient as the night progresses
Ventilation
Time
Confidential
Sector, MMMM dd, yyyy, Reference
Why not use volume assured pressure
support
for
Periodic
Breathing
such
as
•
Cheyne Stokes?
– Volume assurance with PS does not respond fast
enough – event would be over before reaching needed
pressure
– Length of event vs. time of response
Confidential
Sector, MMMM dd, yyyy, Reference
Pearls
Complex physiology and
pathology makes many
patients difficult to treat.
They are a moving target.
Many times, making them
BETTER THAN THEY
WERE on the titration
night IS a success!
Confidential
In contrast to
uncomplicated OSA
patients titrated on
CPAP, the titration
doesn’t END on the
titration night. It is just
the beginning!
Sector, MMMM dd, yyyy, Reference
51
Confidential
Sector, MMMM dd, yyyy, Reference