1. The Role of the �Respiratory Therapist �in the �Treatment of the PH Patient��Gerilynn L. Connors, RRT, BS, FAARC, FAACVPR�Clinical Manager, Pulmonary Rehabilitation�Inova Fairfax Hospital�Falls Church, VA�gerilynn.connors@inova.org�
2. The Role of the Respiratory Therapist �From ICU to Home Care
3. OBJECTIVES: state how the Pulmonary Diagnostic Laboratory test patient’s lung function, exercise capacity and determines what oxygen a patient may need while flying
Understand how Pulmonary Rehabilitation can be an adjunct treatment for the PH patient from the inpatient setting to the
outpatient setting
Know the important role the ICU Respiratory Therapist provides for heart failure patients beyond Nitric Oxide (NO) to Inhaled Epoprostenol
Understand the respiratory home care needs of the PH patient from oxygen systems, delivery devices to CPAP
Understand how the Respiratory Therapist can be a vital team member in the Pulmonary Hypertension Clinic
4. Medical Direction in Respiratory Care The strength of a Respiratory Care Department, Pulmonary Diagnostic Laboratory and Pulmonary Rehabilitation Program is measured not only by the Respiratory Therapist and Managers who work in these departments but the MEDICAL DIRECTORS who provide guidance, support and evidenced based direction.
5. Pulmonary Diagnostic Laboratory Pulmonary Function Test
Pre/post spirometry
Lung Volume
Diffusion
Exercise capacity Test
6 Minute Walk Test
Pulmonary Exercise Stress Test
Arterial Blood Gas
Oxygen Test for High Altitude (air flight, travel)
6. Air Travel for the Patient Requiring Oxygen – �the Pulmonary Diagnostic Laboratory Hypoxia-Altitude Simulation Test (HAST)
Patient breaths 15.1% oxygen simulating aircraft conditions
Determine what patients will develop severe hypoxemia during air travel
Able to identify patients at risk of flight-related complications
requiring supplemental oxygen during air travel
Titration of oxygen during test to determine oxygen l/m in aircraft
7. Calculation for Estimate of In-Flight PaO2 Predicted PaO2 at altitude = 22.8 – 2.74x + 0.68y
A regression equation derived from HAST
Used in normocapnic chronic airway obstruction
X is anticipated cabin altitude in thousands of feet
Y is resting PaO2 in mmHG at ground level, on room air
Formula provides only a prediction of anticipated PaO2
HAST is able to assess the cardiovascular and symptomatic response plus determine supplemental oxygen need
8. Pulmonary Rehabilitation from the �Inpatient to Outpatient Setting Pulmonary Rehabilitation is an adjunct treatment for the PH patient
Pulmonary Rehabilitation assess and treat may be appropriate for the PH Inpatient
New PH diagnosis
New medication program
Patients who begin IV PAH medications must be monitored closely when beginning exercise due to hypotension
Exacerbation of PH
Need to assess exercise function and provide advise for oxygen delivery system and liter flow of home oxygen therapy
Pre/Post lung transplant
9. Pulmonary Rehabilitation Definition ATS/ERS 2006 “Pulmonary rehabilitation is evidence-based, multi-disciplinary, and comprehensive intervention for patients with chronic respiratory disease who are symptomatic and often have decreased daily life activities. Integrated into the individualized treatment of the patient, pulmonary rehabilitation is designed to reduce symptoms, optimize functional status, increase participation and reduce health care costs through stabilizing or reversing systemic manifestations of the disease.”
This definition applies to the pulmonary hypertension patient with the ultimate goal of optimizing their quality of life through assessment, education and therapeutic exercise.
The PH patient’s success in PR starts with a strong partnership between the referring PH Clinic and the local pulmonary rehabilitation program.
10. Essential Components �of Pulmonary Rehabilitation Assessment
Education/Training
Therapeutic Exercise
Psychosocial Intervention
Long Term Adherence**
**with Prevention and Outcomes **
11. Assessment Respiratory Therapy Assessment
Exercise Assessment (6 min. walk test)
Hypoxemia: at rest and with exercise
Nutritional Assessment
Other Assessments as determined:
physical therapy
occupational therapy
Social/ psychological PAH Specific
New York Heart Functional Class/ Symptoms Assessment
PA Pressures
Diagnostic Classification
Expected side effects of medications/ INR (Prothrombin time (PT) and its derived measures of prothrombin ratio (PR) and international normalized ratio (INR) are measures of coagulation.)
Patients understanding of medications/ back-up pumps
Lower baseline blood pressures
Peripheral edema
12. PAH: Signs and Symptoms Symptoms
Syncope
Palpitations
Fatigue
Dyspnea on exertion
Anginal Chest Pain
Hemoptysis
Light headedness
Signs
Prominent Right Ventricular Impulse
Accentuated Pulmonic Valve component (P2)
Right-Sided third heart sound (S3)
Hepatomegaly
Peripheral Edema
Jugular Vein Distention
One of the challenges of treating PH is recognizing and diagnosing it.
Typical signs and symptoms are shown here.
These signs and symptoms are often subtle and nonspecific, making diagnosis difficult.
Patients often initially present with increasing dyspnea on exertion.
All of these but P2 are indicators that often only become apparent in later stages of disease progression.
The last four signs (S3, hepatomegaly, peripheral edema, JVD) are seen once the patient has progressed to right heart failure.
One of the challenges of treating PH is recognizing and diagnosing it.
Typical signs and symptoms are shown here.
These signs and symptoms are often subtle and nonspecific, making diagnosis difficult.
Patients often initially present with increasing dyspnea on exertion.
All of these but P2 are indicators that often only become apparent in later stages of disease progression.
The last four signs (S3, hepatomegaly, peripheral edema, JVD) are seen once the patient has progressed to right heart failure.
13. Potential Side Effects of PAH Medications Cough is usually worse in the first month of treatment and gets better over time.
- baseline systolic BP < 85 mmHg
- antihypertensives, vasodilators, anticoagulants
Cough (39%)
Headache (30%)
Flushing (27%)
Flu-like syndrome (14%)
Nausea (13%)
Trismus (12%)
Jaw pain (12%)
Hypotension (11%)
Cough is usually worse in the first month of treatment and gets better over time.
- baseline systolic BP < 85 mmHg
- antihypertensives, vasodilators, anticoagulants
Cough (39%)
Headache (30%)
Flushing (27%)
Flu-like syndrome (14%)
Nausea (13%)
Trismus (12%)
Jaw pain (12%)
Hypotension (11%)
14. PAH PR Assessment Cont. PR Assessment to include:
WHO Clinical Classification of PAH
WHO Functional Classification, Class I-IV
Results of Rt. heart catheterization
Important to record drug therapy, route given
Symptoms: syncope, palpitations, fatigue, chest pain, light headedness, edema, blood pressure
Anticoagulation, INR
Results of overnight oximetry or formal sleep study
Are they a candidate for lung transplant?
15. Education/Patient Training Normal Anatomy and physiology
Chronic Lung Disease
Description and interpretation of medical tests
Breathing Retraining
Bronchial Hygiene
Medications
Oxygen Therapy/Sleep Disorders
Activities Of Daily Living
Eating Right
Preventing Infection
Leisure Activities
Coping With Chronic disease/ advanced directives
16. PAH Specific Education/Patient Training
Identifying and self monitoring of PH symptoms
Recognizing symptom limited exercise
Know signs of right heart failure
Emergency procedures (pumps & lines)
Expected reactions to medications
Identifying symptoms/ understanding heart cath results
Pregnancy risks
Avoiding falls for the anti-coagulated patient
INR test results & frequency
Recognizing “symptom limited exercise”
Self monitoring of weight and edema
Weight and edema checks
Expected reaction to PH meds
Need for lifelong medication
Patients MUST bring their back up pump at all times
Lung transplantation
18. Exercise Testing 6-minute walk test
Pulmonary Exercise Stress Test
Detect exercise-induced hypoxemia and determine O2 titration
Establish a baseline for outcome determination
Evaluation of current functional activity level and limitations, ADLS, pain, strength, range of motion, posture, balance, gait, safety, and breathing pattern
Evaluation of PAH symptoms, chest pain, shortness of breath, syncope, and fatigue
19. EXERCISE exercise training should be initiated in a supervised setting - PR
Patient has Fear of exertion
Patient should Never exercise alone
Always have back-up pumps and medications as prescribed
Know the safety measures for lines/pumps with exercise equipment
Avoid exercises that increase intra thoracic pressure or valsalva maneuvers
Detect exercise-induced hypoxemia, O2 titration (may require high flow oxygen devices) goal is to keep patients = 90% O2 saturation
Determine best home oxygen system, delivery device and flow rate, especially when high flow oxygen required (beyond the nasal cannula)
PH PR exercise documentation form to include PH symptoms, vitals plus edema, daily weight
Collaborative partnership with PH Clinic and PR a must to communicate concerns, issues, symptoms
20. Flolan® (epoprostenol) � Here is an example of the supplies that may be used in mixing Flolan each day. The number of Flolan vials will depend on the prescribed concentration and the tubing illustrated is changed every three days or on M,W, and F. Here is an example of the supplies that may be used in mixing Flolan each day. The number of Flolan vials will depend on the prescribed concentration and the tubing illustrated is changed every three days or on M,W, and F.
21. Avoid activities that increase �intra-thoracic pressure or valsalva effort
23. PSYCHOSOCIAL INTERVENTION
Quality of life testing (CAMPHOR)
Loss of job or income, disability
Family dynamics
Pregnancy issues
Impact of severe lung disease at relatively young age
Genetic testing
Lack of visible signs of illness
Possible lung transplant evaluation
24. LONG TERM ADHERENCE Schedule and keep PH Clinic appts
Medications necessary for life
Attend PH support groups
Treatment of PH resulting in prolongation of life and increased functional capacity
Exercise with a partner or in a supervised setting
Be connected with the National PH Association
25. Pulmonary Rehabilitation: PR is not just exercise or education but must have the essential components
Typical PR program may meet three times a week, over an 8-12 week period of time, have approximately 10-15 hours of education and 30 hours of therapeutic exercise.
The commitment by the PH patient is great but so are the benefits.
The success of the PR program is also measured by the strength of the PR’s Medical Director who guides the multi-disciplinary team in evidence-based practice.
The PR goals for the PH patient are not that different from the goals of PH medical management:
improve cardiovascular endurance, increase exercise performance, enhance ability to perform Activities of Daily Living (ADL), improve quality of life, reduce hospitalizations, decrease symptoms, especially dyspnea through breathing retraining and ensuring adequate oxygenation at rest and with activity.
26. Positive Outcomes from Pulmonary Rehabilitation
Patient will have a better understanding of how PH affects their lungs, oxygen and exercise
Understand lung symptoms and decrease shortness of breath through breathing retraining and ensuring adequate oxygenation at rest and with activity
Increase exercise performance that translates into improvements in activities of daily living
Improve cardiovascular endurance through a safe and supervised exercise program
Improve quality of life through education and therapeutic exercise
Exercise in a facility that allows the patient to feel secure and safe because of the skill set of the pulmonary rehabilitation respiratory therapist working with them
PR team communicates with referring MD and the PH clinic on patient’s progress in PR
27. How to Locate a Pulmonary Rehabilitation Program � American Association of Respiratory Care (AARC)
http://www.yourlunghealth.org/finding_care/qrc/pulm_care/index.cfm
American Association of Cardiovascular and Pulmonary Rehabilitation, (AACVPR)
http://www.aacvpr.org/Resources/SearchableCertifiedProgramDirectory/tabid/113/Default.aspx
28. Respiratory Home Care Needs of the PH Patient Oxygen Systems
Oxygen Delivery Devices
CPAP or Bi-Level Positive Airway Pressure to treat Sleep Apnea
29. Oxygen Systems: Compressed gas
Liquid oxygen
Oxygen concentrator
30. Oxygen Delivery Devices Delivery Device Description Liter Flow
Nasal Cannula Delivers approx. 44% 1-6 l/m
O2 depending on liter flow,
patients respiratory rate, etc.
Oxymizer Pendant Higher FiO2 achieved
or Mustache 1-12 l/m
http://www.chadtherapeutics.com/usa/Disposable-Conservers/Oxymizer.html
High Flow Cannula High flow without a face mask.
(various manufacturers) Patient can eat, drink etc. 6-15 l/m
Oxymask provide greater FiO2 at lower flows 1 - flush l/m
http://www.southmedic.com/products/oxymask-adult.php
31. Respiratory Therapy in the ICU Know the important role the ICU Respiratory Therapist provides for heart failure patients beyond Nitric Oxide (NO) to Inhaled Epoprostenol (iEPO)
Ventilated patients can be challenging to liberate (wean) off mechanical ventilation and the ICU Respiratory Therapist is a vital member of the ICU team
32. Inhaled Nitric Oxide (iNO) Objective:
Decrease pulmonary artery pressure (PAP)
Decrease pulmonary vascular resistance (PVR)
Improve oxygenation
Patient Populations: adults and children
Indications: respiratory failure with mechanical ventilation, secondary to diffuse parenchyma lung disease, severe respiratory disease requiring FiO2 >70%, oxygenation index X Mean Airway Pressure of >10, patients with congenital or acquired heart disease with anatomic and/or physiologic abnormalities associated with pulmonary artery hypertension or pulmonary vascular changes, lung and cardiac transplant, LVAD
Benchmarking and Evidenced Based Data
Cost: Expensive
33. Going Beyond Inhaled Nitric Oxide (iNO) ……………………..�Inhaled Epoprostenol (iEPO)
Objective:
treat pulmonary hypertension and right ventricular failure as
confirmed by rt. heart cath., echo, or direct visual inspection during cardiac surgery
Treat severe hypoxemia (PaO2/FiO2 ration < 200) unresponsive to standard therapy in patients with ARDS
Patient Populations: adults and children,
Indications: lung, heart transplant, LVAD, ARDS
Inhaled Epoprostenol (iEPO)
Comparable to the effect of iNO, clinical & hemodynamic response good
Lack of toxic reactions
Easy administration
Cost effective alternative
Benchmarking and Evidenced Based Data
34. The Respiratory Therapist and the �Pulmonary Hypertension Clinic Role the Respiratory Therapist has is dependent on the facility and program needs as directed by the PH Medical Director and Manager
Assessment and Education of the PH Patient
clinic evaluation
To include H & P
physical exam
medication review
Diagnostic testing: 6 MWT and spirometry test
Education of the PH patient on specific topics
35. References� CJ Dine, ME Kreider. Hypoxia Altitude Simulation Test. Chest. 2008;133;1002-1005.
Aina Akero, MD, Anne Edvardsen, Carl Christensen, et.al., COPD & Air Travel. Oxygen Equipment and Preflight titration of supplemental oxygen. Trial registry: Clinical Trials.gove; No.: Identifier NCT01019538; URL: clinicaltrials.gov. Chest Journal
de Man FS, Handoko ML, Groepenhoff H, et. al., Effects of exercise training in patients with idiopathic pulmonary arterial hypertension. Eur Respir J 2009; 34: 669-675.
Shapiro S, Traiger GL, Exercise and Pulmonary Hypertension, Chapter 32, pg 518- 528 in Hodgkin JE, Celli BR, Connors GL. Editors. Pulmonary Rehabilitation: Guidelines to Success, 4th Edition, Mosby Elsevier, 2009.
36. References Cont. Mereles D, Ehlken N, Kreuscher S et al. Exercise and respiratory training improve exercise capacity and quality of life in patients with severe chronic pulmonary hypertension. Circulation 2006 October 3;114(14):1482-9.
Adamali H, Gaine SP, Rubin LJ. Medical treatment of pulmonary arterial hypertension. Semin Respir Crit Care Med 2009;30:484-492.
Dose-Response to Inhaled Aerosolized Prostacyclin for Hypoxemia Due to ARDS Chest March 2000 117:819; 10.1378/chest.117.3.819
Suhail Raoof, Keith Goulet, et.al., Severe Hypoxemic Respiratory Failure: Part 2—Nonventilatory Strategies Chest June 2010 137:1437; 10.1378/chest.09-2416
37. References Cont. Kieter Wlamrath, Thomas Schneider, et. al., Direct Comparison of Inhaled Nitric Oxide & Aerosolized Prostacycline in Acute Respiratory Distress Syndrome. Am J Respir Crit Care Med 1996;153:991-6.
Charl J. De Wet, David Afflect, et. al., Inhaled prostacycline is safe, effective, and affordable in patients with pulmonary hypertension, right heart dysfunction, and refractory hypoxemia after cardiothoracic surgery. J. Thorac. Cardiovasc. Surg., December 1, 2004; 128(6):949-950.
38. SUMMARY………………………………………... Respiratory Therapist have a critical role in optimizing the treatment and quality of life for the PH patient from the ICU to Pulmonary Rehabilitation to Pulmonary Diagnostics to Home Care, to the PH Clinic setting through collaboration with the Pulmonary Hypertension Specialist.
39. THANK YOU!!!!!!! Gerilynn L. Connors, RRT, BS, FAARC, FAACVPR�Clinical Manager, Pulmonary Rehabilitation�Inova Fairfax Hospital�Falls Church, VA�gerilynn.connors@inova.org�
