Cardiac Pathophysiology & Intervention PDF

Summary

This document presents information on various cardiac conditions, including inflammatory disorders such as Endocarditis and Pericarditis, along with Myocarditis, Oncology Related Heart Disorders, Autonomic Dysfunction, Postural Orthostatic Tachycardia Syndrome (POTS), Orthostatic Hypotension, concerning COVID-19 and its rehabilitation, and related information and treatment methods.

Full Transcript

Cardiac
Pathophysiology
& Intervention Heidi Tymkew PT, DPT,
MHS, CCS
Inflammatory Disorders of the Heart
Endocarditis
Symptoms:
▪ Chills/fever
▪ Joint and muscle pain
▪ Red spots or nodes on hands/feet
▪ Shortness of breath with activity
▪ Fatigue
▪ Swelling

Treatment:
▪ IV antibiotics
▪ Surgery if it damages the heart valves
▪ May need to limit exercise during the
acute phase of endocarditis
 Pericarditis

▪ Inflammation of the pericardial sac around the heart
▪ Often idiopathic but can be caused by injury to pericardium (i.e. post
CABG surgery), MI, autoimmune diseases, or viral infections

▪ Symptoms:
▪ Chest pain or pain between shoulders (sharp/stabbing that gets worse with
cough, swallow, deep breaths or lying flat but feels better with sitting and
leaning forward)
▪ Pericardial rub
 Pericarditis

▪ Treatment:
▪ Anti-inflammatory, steroids and pain meds
▪ Antibiotic (if caused by bacterial infection)
▪ Surgery (rare) – pericardial window to drain the inflamed lining

▪ Physical Activity usually restricted for a minimum of 1-3 months
https://ucsfhealthcardiology.ucsf.edu/patient-care/clinical-services/myocarditis-center
Myocarditis
▪ Treatment
▪ No standard treatment
▪ Treat heart failure and
arrhythmias

▪ Avoid physical activity for at
least 3-6 months – need
clearance from a cardiologist
Oncology Related Heart Disorders
 Oncology Related Heart Disorders
Some cancer treatments can injure the heart muscle and blood
vessels → increased risk of CV disease
2-6 times higher CVD mortality risk
Cardiotoxicity = functional or structural damage to the CV system
related to cancer treatments
Chemotherapy
Anthracycline drugs (doxorubicin, daunorubicin)
Cisplatin
Chest radiation
Immunotherapy (Immune checkpoint inhibitors)
Targeted therapies
Oncology Related Heart
Disorders
CV disorders that can result from cancer
treatment:
Cardiomyopathy or Heart failure
Coronary artery disease/MI
Valvular heart disease
Arrhythmias
Pericarditis or myocarditis
Hypertension
Stroke
Blood clots (DVT or PE)
Peripheral artery disease
 Oncology Related Heart Disorders
Cardiac tests used during/after cancer treatments
BNP, NT-proBNP
Troponin I or T
Lipid profile
EKG
Echocardiogram
Cardiac MRI

Medical Intervention
Cardioprotective strategies to reduce the impact of the cancer treatments
Dexrazoxane, ACE Inhibitors, Beta-blockers
Lifestyle modifications/risk factor management
Treatment for the specific CV disorder
Autonomic Dysfunction

Heidi Tymkew PT, DPT, MHS, CCS
Autonomic
Nervous System
(ANS)

Controls involuntary
physiologic processes

Sympathetic Nervous System
(SNS)

Parasympathetic Nervous
System (PNS)
 Causes of Autonomic Dysfunction

Result of a Preexisting
Hereditary Acquired/Idopathic
Condition
Familial dysautonomia Neurocardiogenic syncope DM
Hereditary sensory POTS Autoimmune diseases
neuropathy type 3 Multisystem Atrophy (RA, lupus)
Pure autonomic failure Neurogenic orthostatic
hypotension
Parkinson’s disease
Dementia with Lewy
Bodies
Medications
Trauma
Normal Response to Position Change
In a person with an intact ANS,
the change from supine to
standing will results in:
Blood pooling in the abdomen
and legs (500-800 ml)
ANS is activated to
compensate for and maintain
CO by increasing HR and
peripheral vasoconstriction
↑ HR 10-20 bpm
Min change in systolic BP
~5 mmHg ↑ in DBP
Postural Orthostatic Tachycardiac Syndrome
(POTS)
Autonomic disorder that involves an
excessive tachycardia in standing in the
absence of orthostatic hypotension and
other medical condition/medications

Primary affects females between the ages
of 15-50 years (with the majority being
between 15-25 years of age)
Affects ~ 500,000 Americans
Diagnosis of POTS
The exact underlying cause is not known
Often triggered by viral/bacterial infection
Diagnosed with a 10-minute standing test or a
head-up tilt table test
Lie supine x 10 min – obtain HR/BP
Stand up/tilt up and measure HR/BP at 1,2,5, 10
minutes
+ test = Sustained HR > 30 bpm (>40 bpm in people
from ages 12-19 years) with no change in BP
Symptoms of orthostatic intolerance for > 6
months
Absence of other causes of sinus tachycardia
Changes in
HR and SV
during a Tilt
Table Test

(Bryarly et al. J Am Coll Cardiol, 2019)
 Acrocyanosis
Effects ~50% of people with POTS

Red-blue discoloration of the legs
in standing which are cold to touch

(Raj, Circulation, 2013)
Treatment of POTS
Pharmacological interventions
No approved medications
Some meds are used to treat the symptoms
(Midodrine to ↑ BP and Propranolol to ↓HR)
Ivabradine (↓HR)
 Exercise conditioning has been deemed as a
fundamental aspect of POTS treatment
Short-term exercise (3 months)
↑ Peak VO2
Treatment ↑ Cardiac size and mass
↑ Blood volume
of POTS After 3 months of training the majority
(71%) of patients no longer met the
objective criteria for POTS (George et al.,
Heart Rhythm, 2016)
 Initially avoid upright exercise and gradually
progress activity
Aerobic training
Rowing machine, recumbent bike,
swimming → upright bike, TM, jogging
Warm up and cool down
Treatment May have to start with short duration
but work up to 30 minutes/session
of POTS Work up to 75% Max HR or RPE 13-15
Initial goal is 3-4x/week for 25-30
minutes and then progress to 5-
6x/week for 45-60 min
Interval training may be beneficial
Try not to take more than 2 days off
from exercising
Treatment of POTS

Strength training
Use of body weight or seated
machines
1-2x/week for 15-40 minutes
a session
Focus on LE and core
Take at least a day off
between strength workouts
 Treatment of POTS

Other common interventions
Gradual increase in salt intake –
up to 10 grams/day

Increased fluid (2-3 L/day)

Sleeping in the head-up position
Treatment of POTS
Other common interventions
Compression garments
May help to reduce the patient’s
heart rate and symptoms during
upright activity
Consider
Lower leg
Abdominal binder
Full compression garment
 Treatment of POTS

Other common interventions
Lifestyle adaptations
Eating smaller meals
Consume more protein
Limit caffeine and alcohol
Avoid prolong standing
Limit exposure to heat
Sleep hygiene
Treatment of POTS

Physical Counter Maneuvers
Help reduce venous pooling in the
LE
May help to reduce symptoms

(Lowe, 2008)
How would you treat a patient who has
POTS?
Orthostatic
Hypotension
 Decrease of SBP by 20 mmHg or more and
more than 10 mmHg of DBP within 3 minutes
of standing
Common disorder that increases with age
Orthostatic
Causes
Hypotension Dehydration
(OH) Blood loss
Certain medications
Neurologic disorders (i.e. Parkinson’s)
Cardiovascular disorders
Endocrine disorders (i.e. DM)
 People at risk:
Prolonged bed rest or post surgical
Volume depleted
Vasodilators or antihypertensive
Orthostatic meds
Central or peripheral nervous system
Hypotension disease
Parkinson disease, SCI
Increased age
Autonomic dysfunction
Orthostatic Hypotension Symptoms
Common Less common
Dizziness Chest pain
Lightheadedness Neck/shoulder pain
Dimming of vision or Dyspnea
visual blurring Seizure-like tonic
Weakness/buckling of LE movements
Fatigue
Headache
Palpitations
Nausea
Cognitive slowing
Syncope
 Correct any reversible conditions

Drug side effects, hypovolemia

Treatment Pharmacological therapy

Midodrine
of OH Fludrocortisone
Pyridostigmine

**Monitor for supine hypertension
 Diet
Exercise prior to meals
Avoid alcohol and large meals
Increase intake of caffeine and salt
Treatment of Adequate hydration
Limit exposure to hot showers/baths
Orthostatic and weather
Hypotension Use of compression stockings and/or
abd binders
Sleep with head of bed elevated ~ 15-20
degrees
 Compression of Legs and/or Abdomen
Reduction of symptoms have been seen in older adults, autonomic
dysfunction and SCI
 Treatment of OH

Physical Counter Maneuvers
Help reduce venous pooling in the LE
May help to reduce symptoms

Avoid straining and prolonged,
static standing

Change positions slowly

(Lowe, 2008)
Tips when Treating a Patient with
Orthostatic Hypotension
Monitor vital signs with position changes, during ambulation and
ADLs
Be aware of medications used for treatment of OH
Teach physical maneuvers to avoid OH
Make the patient safe to go home – may need modifications for ADLs
and/or AD for mobility
Encourage (safe) physical activity to prevent deconditioning/loss of
function
How would you treat a patient who has OH?

Acute Care Setting

Outpatient Setting

What would you want to monitor closely?
COVID AND
REHAB
 During the initial COVID time point, little was
known about the disease so there was limited
rehab intervention

Rehab services were often delayed due to PPE
shortage, uncertainty of the disease, need to
COVID-19 follow isolation protocols and insufficient staff to
provide care

Use of rehab services increased over time
 Clinical symptoms ranged from asymptomatic to severe
disease
Mild – Flu-like symptoms, cough and fever, loss of
smell/taste, GI symptoms
Moderate to Severe – ARDS, pneumonia, septic
shock, multiorgan failure
Acute COVID Multisystem involvement
No consensus about the optimal approach to early
Stage (1st 5 mobility for people with critical illness due to COVID
Early mobility needs to be based on the patient’s
weeks) response to mobility
Close monitoring of vital signs at all times
May need to titrate oxygen to maintain the
patient’s SpO2 >88-90%
PT Intervention consisted of: proning, airway clearance,
early mobility, strengthening activities
 “Post-COVID-19 condition occurs in individuals
with a history of probable or confirmed SARS-
CoV-2 infection, usually 3 months from the
onset of COVID-19 with symptoms that last for
Long COVID at least 2 months and cannot be explained by an
alternative diagnosis.” (WHO)
(Post-Acute ~10-15% of Americans report having long
COVID symptoms (CDC)
Sequelae of
COVID-19) Long COVID can present with debilitating
symptoms and medical conditions that lead to
physical, social and psychological disability
 Long COVID

People who are more likely to develop Long COVID
Severe COVID illness
Underlying health condition prior to COVID
Did not get the COVID vaccine
Long COVID
Symptoms

(Scurati et al. Int J Mol Sci, 2022)
(Tabacof et al, Am J Phys
Med Rehabil, 2022)
 Cognition:
St Louis University Mental Status Examination
(SLUMS)
Quality of Life:
APTA Core PROMIS Global 10
EQ-5D-5L
Outcomes Strength:
Medical Research Council Sum Score(MRC-SS)
Function:
Short Physical Performance Battery (SPPB)
Endurance:
2-Minute Step Test
 Obtain medical history related to COVID illness
Hospitalization/ICU
Assess the patient and determine impairments
Rehab Tips Monitor vital signs throughout the session
Assess for nl/abn response to activity
for Long Oxygenation
HR response
COVID POTS symptoms
Signs of exercise intolerance/fatigue
Assess cognition
 Progressive activity/exercise program
Individualized to each patient based on symptoms
Pulmonary rehab program
Autonomic Conditioning Therapy
Rehab Tips Monitor for post-exertional symptom exacerbation

for Long Teach pacing/energy conservation
Provide POTS interventions if appropriate
COVID
Education
Determine what triggers the symptoms
Use of relaxation techniques and/or massage
How would you treat a patient who has COVID?

Acute Care Setting

Outpatient Setting

What would you want to monitor closely?