SLP26 2011 Dysphagia and the respiratory system
Transcription
SLP26 2011 Dysphagia and the respiratory system
J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Dysphagia and the respiratory system: Aerodigestive tract primer 2012 KSHA Convention Kansas City, 09/2011 James L. Coyle, Ph.D., CCC‐SLP, BRS‐S Department of Communication Science and Disorders University of Pittsburgh [[email protected]] Pre‐test • 1. Breathing is driven by the need for oxygen. • 2. Dysphagia is the cause of aspiration pneumonia • 3. Hospitalized patients never get sick in the hospital • 4. Feeding tubes prevent aspiration. True or false? • 5. Thin liquid aspirators aspirate less with thick liquids. • 6. Thick liquids reduce pneumonia in thin liquid aspirators. • 7. Eliminating dysphagia is the best way to reduce aspiration pneumonia risk. True or False? 2 Dysphagia & pneumonia Disease Dysphagia Pneumonia Exposure Pneumonia Dysphagia Risk Factors Pneumonia ? Dysphagia 3 1 J. Coyle, Ph.D., KSHA 2011‐1 Dysphagia 8/22/2011 ? Pneumonia 4 Medical SLP • Role of Modern Medical SLP – What is the nature of the patient’s dysphagia? – How likely is current disease related to dysphagia? – What is risk of future disease due to dysphagia? – Can that risk be lowered? – How? – What if the plan cannot work?? 5 Our patients People diagnosed with pneumonia People with pneumonia People who aspirate People with dysphagia 6 2 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 People diagnosed with pneumonia People diagnosed with pneumonia, but DO NOT have pneumonia People who actually have pneumonia Pneumonia, and diagnosed People with pneumonia whom are never diagnosed 7 Dysphagia, no aspiration People who aspirate Aspirate and have dysphagia People with dysphagia Aspirate, but not due to dysphagia 8 People diagnosed with pneumonia Pneumonia diagnosis, do not aspirate People who aspirate Aspirate, diagnosed with pneumonia Aspirate, no pneumonia diagnosis 9 3 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 • Sounds simple? 10 This one is easy All 4 X People diagnosed with pneumonia X People who actually have pneumonia X People who aspirate X People with dysphagia More difficult How about this one? This one looks easy, especially if patient appears dysphagic 11 Pneumonia dilemmas • Aspiration is the main risk factor – And nobody is thinking about it • Dysphagia‐related, or otherwise • Aspiration may be one problem – But other risk factors are present, or • Aspiration is not the problem – Other things mimic pneumonia – But aspiration is presumed to be the problem 12 4 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Respiratory System Functions • Ventilation – Transfer of oxygen rich air into lungs – Transfer of oxygen depleted/waste air out of lungs • Respiration – Transfer of oxygen to circulatory system, then to working organs – Removal of some metabolic waste from working organs, via circulatory system 13 Ventilation 14 Biomechanics of Ventilation • Pressure driven “pumping” system – Movement of air from environment into lungs – Inspiration is ALWAYS active – Expiration largely passive (rest) • Ventilation needs – Alveolar compliance – Intact “pump” mechanism 15 5 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Factors Enabling Ventilation • Alveolar Compliance created by: – Delicate, thin, stretchable tissue – Surfactant • Reduces alveolar surface tension – Chest wall coupling • Holds lungs partially open • Respiratory pump intact – Innervated diaphragm – Room to expand 16 Factors DISabling Ventilation • Alveolar Compliance damaged: – Thickened, damaged alveoli • Fibrosis, inflammation – Loss of Surfactant • ARDS, pneumonitis – Damaged chest wall coupling • Atelectasis, pneumothorax • Damaged respiratory pump – Kyphosis, scoliosis, paralysis, pain 17 Ventilatory Disorders‐restrictive • Others: – Atelectasis – Pleural effusion – Pneumothorax 18 6 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Ventilatory Disorders‐restrictive • How they mimic pneumonia – Rapid respiratory rate • More breaths/minute to increase ventilation • Caused by dysphagia? – Overwhelmingly, no. Exceptions: • Severe, recurrent pneumonia/abscess – pneumothorax, exudative pleural effusion • Chronic aspiration and pulmonary fibrosis 19 Respiration 20 Terminal Respiratory Structures 21 7 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Factors enabling respiration • Delicate thin membranes intact – Gas diffusion • Respiratory membrane unobstructed • Enough alveolar surface area – Meets demands for gas exchange • Open airways – Delivery of gases into and out 22 Factors DISabling respiration Thickening of respiratory membrane Obstruction of respiratory membrane Blocked airways, or pulmonary infiltrates Loss of alveolar surface area ALL: CO2 cant get out of blood; O2 can’t get into blood INCREASED RESPIRATORY RATE 23 Respiratory Disease • Chronic obstructive pulmonary disease – Chronic bronchitis – Emphysema • Acute obstructive pulmonary disease – Pulmonary edema 24 8 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Respiratory Disorders‐obstructive • Mimic pneumonia – Rapid respiratory rate, CO2 retention, hypoxemia • Caused by dysphagia? – Overwhelmingly, no. Exceptions: • Chronic aspiration alveolar destruction (COPD) • Aspiration airway obstruction 25 Pulmonary Edema (CHF)‐acute + obstructive • Pulmonary Edema – Alveoli filled with serum, other seeping fluids from capillaries – Heart failure • Pulmonary hypertension – Increased capillary permeability • pneumonitis Dysphagia related? No, unless inflammation caused by prandial aspiration-caused infection. 26 Iatrogenic causes of respiratory conditions • Iatrogenic condition: a disease cause by treatment of another disease – Sedation (restrictive) • CNS depression – Disruption of pleural linkage (restrictive) • Cardiothoracic surgery – Phrenic nerve injury (restrictive) • Cardiothoracic surgery 27 9 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Breathing and Swallowing 28 Breathing and Swallowing • In Normals... – Exhale Swallow Exhale; Young and Old1 – Respiratory rate (young) is about 16/min.2 – “ “ (elderly) “ “ 20/min. – Total Swallow Duration, Swallow Apnea Duration3 • Increase with age • Decrease with lower lung volumes 1. 2. 3. Perlman et al., 2005; Hiss et al., 2002; Leslie et al., 2002; Shaker et al., 1992. Leslie et al., 2002; Gross et al., 2003; Hiss et al., 2003; Leslie et al., 2005. 29 Normal Respiratory Rate Total Swallow Duration=1.5 – 2.5 seconds inspiration Swallow apnea 1.5 – 2.5 seconds Seconds expiration Respiratory Rate = 16/min 30 10 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Abnormal Breathe‐Swallow Phase inspiration Swallow apnea 1.5 – 2.5 seconds Seconds expiration 31 Rapid Respiratory Rate Total Swallow Duration=1.5 – 2.5 seconds inspiration Swallow apnea 1.5 – 2.5 seconds Seconds expiration Respiratory Rate = 36/min 32 TYPES OF PNEUMONIA AND DIFFERENTIAL DIAGNOSIS OF ASPIRATION PNEUMONIA 33 11 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Lung response to aspiration 34 Aspiration • Solid or liquid matter – Not airborne, inhaled pathogen • Courses by gravity, to its destination • Crosses plane of true vocal folds 35 Aspiration‐destination • Entrance of liquid or solid matter into the respiratory system, below the vocal folds – Not airborne • Aspirated material is gravity dependent • Airborne is not R L R L 36 12 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Aspiration: water Inside alveolus H2O H2O H2O Water H2O Respiratory Membrane Alveolar membrane Capillary membrane RBC’s Toward (L) heart From (R) heart Plasma containing water inside capillary WBC’s Effros, et al., 2000 37 Aspiration:hypertonic solution Inside alveolus Hypertonic solution Respiratory Membrane Alveolar membrane Capillary membrane RBC’s From (R) heart H2O H2O H2O H2O Toward (L) heart Plasma containing water inside capillary WBC’s 38 Aspiration: Chemical or other irritants (pathogens) infiltrate Inside alveolus Chemical irritant Respiratory Membrane Alveolar membrane Capillary membrane RBC’s From (R) heart H2O H2O plasma H2O Toward (L) heart Plasma containing water Inside capillary WBC’s 39 13 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Acute Respiratory Distress Syndrome (ARDS) Normal acute resolution Ware & Matthay, 2000 40 Pneumonia Pathogen + Impaired Host Resistance + Other Risk Factors Pneumonia Infection + Inflammation Nosocomial Pneumonia CAP Aspirated Pathogen Inhaled Pathogen Inhaled Pathogen Aspiration Pneumonia Typical VAP Atypical DAP Non‐ DAP 41 Aspiration Pneumonia • Aspirated pathogen – In solid or liquid matter – Courses by gravity, to its destination – Not airborne, inhaled pathogen • Enters airway – Dysphagia – emesis – gastroesophageal esophagopharyngeal reflux 42 14 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Non‐aspiration pneumonia • Inhaled, airborne pathogen – Environmental pathogens – Bacterial, viral • Hematogenous pathogen – Septicemia • Direct inoculation – Contaminated respiratory circuit/equipment 43 Pneumonia • • • • • Most frequent infectious cause of death* 40% higher incidence in elderly / over 14** 13%‐48% of all Nursing Home Infections #2 nosocomial infection (UTI) in hospitals*** High case fatality rate – 55% (elderly) – Leading cause of mortality in children under 5**** Marston, et al., 1997*; National Center for Health Statistics, 2003**; ***Niederman, et al., 2002; ****Baine et al., 2001; Almirall, et al., 2000 44 What is Pneumonia? O2 O2 CO2 O2 CO2 O2 CO2 O2 O2 CO2 Capillary – RBC, WBC O2 45 15 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 What is Pneumonia? O2 O2 CO2 O2 O2 CO2 O2 O2 O2 CO2 CO2 Capillary – RBC, WBC 46 O2 CO2 O2 O2 O2 O2 CO2 O2 CO2 O2 CO2 capillary 47 What is Pneumonia? O2 O2 O2 CO2 O2 CO2 O2 CO2 CO2 O2 O2 capillary 48 16 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Aspiration Pneumonitis • Non‐Infectious‐chemical trauma – Acute Lung Injury: caustic or particulate aspiration – Inflammation of alveoli by effects of irritants • No primary infection – Can develop opportunistic infection • Inflammatory edema reduces surface area • Gastric contents – Sterile, acidic, caustic – Damage to airways, alveoli 49 O2 CO2 O2 O2 O2 O2 O2 CO2 CO2 O2 O2 O2 O2 O2 CO2 O2 CO2 O2 CO2 CO2 O2 O2 CO2 CO2 CO2 capillary 50 Differential Diagnosis‐ clinical, laboratory signs • Aspiration pneumonia – – – – – – – – Inflammation Cough – productive Bronchospasm Dyspnea Hypoxemia Purulent sputum Tachypnea Malaise • Aspiration pneumonitis – – – – – – – – Inflammation Cough ‐ not productive Bronchospasm Dyspnea Hypoxemia Frothy or bloody sputum Tachypnea Respiratory distress minutes to hours after aspiration; may persist 51 17 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Differential Diagnosis • Dysphagia‐related Aspiration Pneumonia (DAP) – Infiltrates in dependent segments – Patient has DYSPHAGIA! – Other evidence of infection • Non‐dysphagia related aspiration pneumonia – No dysphagia; GE reflux, emesis… • Acid suppression therapy? – Exposure to patients with CAP – Other risk factors (next) 52 Aspiration Related Infiltrates (R) Basilar infiltrates (R) Upper lobe infiltrates Aspiration produces pneumonitis or pneumonia in gravity dependent portions of lung(s). “Dependence” depends on posture when aspiration occurs, density & volume aspirated. 53 Right lung Right Left Posterior Anterior RUL, RML, RLL, LLL 54 18 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Left lung Right Left Anterior Posterior LUL, LLL 55 Differential Diagnosis • Laboratory Values – WBC • Immunocompromise? • Radiographic evidence – New infiltrate • Fever‐persistent • Respiratory distress – Productive cough • First 3 do not subside: – Pneumonia is likely 56 Risk factors for aspiration pneumonia • Is dysphagia all that matters? – Some things to think about 57 19 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Oral biofilm development Oral biofilm Oral anaerobes Variety of microorganisms in dental plaque 58 http://bioinfo.bact.wisc.edu/themicrobialworld/streptococci_biofilm.jpg; Public health image library #3074, Centers for Disease Control A new source of AP? • Aggressive acid suppression may create conditions favoring pathogenesis of pneumonia* – PPI: twofold increase in pneumonia • Ambulatory and hospitalized patients – H2 blockers: increased risk (<2) • GE reflux and pulmonary fibrosis *Marik, 2001; Marik and Zaloga, 2002; Laheij, et al., 2004; Eurich, 2010; Herzig et al., 2009 59 GOSP • Geriatric Oral Science Project – Langmore, et al., 1998. Predictors of aspiration pneumonia: how important is dysphagia? Dysphagia 13: 69‐81. 60 20 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 GOSP • N = 189 adults, age 60‐95 – 160: COPD, CHF, DM, CVA, other neuro, GI disease • 112 had more than one of these, 48 had only one – 29 patients had none of these (control group) – Excluded • Head/neck CA, current pneumonia, new CHF 61 GOSP • All patients underwent: – Clinical Swallow Exam* – VFSS** – 3 nuclear medicine esophageal studies • Clearance, GE reflux, aspiration of refluxate – Dental exam* – Saliva collection* and culture; throat culture – Interview, medical and functional status (chart) * repeated annually; ** repeated if suspected change in swallow function 62 GOSP • Dependent variables (outcome of interest) – Pneumonia • • • • Panel consensus 3 physician (geri., card., pulm.) WBC > 12,000 Fever > 38C New infiltrate on CXR (higher weight) – Death 63 21 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 GOSP Independent variables Living site Home, NH, Acute care Medical diagnosis Dental/oral status Dentate, edentulous, # decayed teeth, disease Currently smoking Mental status Activity level Dependency for oral care Dependency for feeding VFSS observations Biomechanics, aspiration Esophageal function Tube feeding status/use Oral cleanliness Toothbrushing frequency Flossing frequency Oral hygiene frequency Professional 64 Results (risk factors) • 41/189 patients developed pneumonia (22%) – NH: 44%, Acute care: 19%; Home: 9% – Diagnosis • • • • CVA: 27% Other neuro: 33% COPD or CHF or GI: 32% COPD and GI: 49% – Currently smoking: 32% 65 Results (risk factors) • Medications (average # per patient) – Pneumonia: >10, others: 7.6 • Dysphagia on VFSS: 81% – 58% pneumonia patients aspirate liquids – 27% aspirated food – 50% aspirated secretions • Tube feeding: 27% patients with pneumonia 66 22 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Analysis 1 ‐ Association • Risk factors (I.V.’)s – – – – – – – – • Dependent variables Variable 1 Variable 2 Variable 3 Variable 4 Variable 5 Variable 6 Dysphagia Variable 7 Pneumonia 67 Significant predictors Pneumonia No pneumonia Dysphagia 81% 47% Tube feeding at pneumonia dx 27% 9% Low or no activity 59% 28% Dependent oral care 34% 10% Dependent feeding 41% 6% Brush teeth occasionally or never 40% 12% # decayed teeth 5.2 2.4 Dry or excess oral secretions 38% 17% But, EACH WAS SIGNIFICANT IN PRESENCE OF OTHER RISK FACTORS 68 Analysis 2 ‐ Predictive Value • Risk factors (I.V.’s) – – – – – – – – Variable 1 Variable 2 Variable 3 Variable 4 Variable 5 Variable 6 Dysphagia Variable 7 • Dependent variables Pneumonia ODDS RATIO “How much does each risk factor, independently increase pneumonia risk?” 69 23 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Independent predictors (OR) Increased likelihood of pneumonia, when patient has the risk factor All patients Patients eating orally Dentate patients Dentate patients eating orally Dependent for feeding ‐ 19.98 ns 11.8 Multiple Diagnoses ns ns 4.9 7.3 Now smoking ns 4.1 ns ns Tube fed before pneumonia 3.0 ‐ ns ‐ Dependent for oral care 2.8 ns ns ns # decayed teeth ‐ ‐ 1.2 ns Number of meds ns 1.16 ns ns Dysphagia/ Aspiration ns ns ns ns 70 • Dysphagia/Aspiration – Was not an independent risk factor – Only significant in presence of other risk factors – ASPIRATION ALONE IS NOT ENOUGH TO CAUSE PNEUMONIA • Mitigating other risk factors in dysphagic patients, lowers pneumonia risk more than efforts to mitigate dysphagia. 71 Summary • There are many clues pointing to, or away from, a diagnosis of DAP • There are mimics of DAP • Aspiration can occur without dysphagia • Aspiration is one potential source of pneumonia pathogens • All respiratory illnesses are NOT dysphagia related • ALL PNEUMONIAS ARE NOT ASPIRATION RELATED • Patient appearance with pneumonia is NOT baseline • History, course, physical signs are data for the SLP 72 24 J. Coyle, Ph.D., KSHA 2011‐1 8/22/2011 Questions • Thank you [email protected] 73 Thank you. [email protected] 74 25