Adult asthma
141
Adult Asthma (Medicine) Mohd Hanafi Ramlee
Transcript of Adult asthma
Adult Asthma
(Medicine)Mohd Hanafi Ramlee
History
Asthma : derived from the Greek aazein, meaning "sharp
breath." The word first appears in Homer's Iliad.
In 450 BC. Hippocrates: more likely to occur in tailors,
anglers, and metalworkers.
Six centuries later, Galen: caused by partial or complete
bronchial obstruction.
1190 AD, Moses Maimonides: wrote a treatise on asthma,
describing its prevention, diagnosis, and treatment
17th century, Bernardino Ramazzini: connection between
asthma and organic dust.
1901: The use of bronchodilators started.
1960s: inflammatory component of asthma was
recognized and anti-inflammatory medications were
added to the regimens.
What is known about asthma?
ASTHMAChronic inflammatory condition of the
airways characterized by;
- airflow limitation (reversible with treatment)
- airway hyper-responsiveness to a wide range stimuli
- inflammation of the bronchi
In chronic asthma, inflammation maybe accompanied by irreversible airflow limitation
Symptoms are cough, wheeze, chest tightness, and shortness of breath which often worse at night
Simple Definition
A reversible chronic inflammatory
airway disease which is characterized by
bronchial hyper-responsiveness of the
airways to various stimuli, leading to
widespread bronchoconstriction, airflow
limitation and inflammation of the bronchi
causing symptoms of
cough, wheeze, chest tightness and dyspnoea.
Epidemiology
Common disease with unacceptably high morbidity and mortality
Commonly underdiagnosed and undertreated
Only 36.1% of adult asthmatics ever had their peak flow measured
Higher prevalence in rural (4.5%) than in urban areas (4%),lower educational status(5.6%) and lower income
Majority of patients(87.3%) had mild asthma; 9.9% had moderate asthma and 2.7% had severe asthma
Among severe asthmatics, only 19.4% were on inhaled corticosteroids
87%
10% 3%
Asthmatic patient
Mild Moderate Severe
Epidemiology
EPIDEMIOLOGY
The prevalence of asthma has increased
61% over the last two decades.
Asthma is the leading chronic illness
among children.
Asthma results in 10 million lost school
days and 3 million lost work days.
Deaths from asthma have increased by
31% since 1980.
Classification
Extrinsic – implying a definite external cause more frequently in atopic inviduals
(atopic – individual which tends to develop
hypersensitivity by contact with allergens)
often starts in childhood - accompanied by
eczema
Intrinsic/cryptogenic – no causative agent can
be identified
starts in middle age
Types of Asthma
According to the severity:
helpful for treatment and
management.
Very mild
Mild
Moderate
Moderately Severe
Severe
Types of AsthmaAccording to pathophysiology
Allergic asthma
Intrinsic (Non-Allergic)
Exercise-induced
Occupational (allergic)
Steroid-resistant
ABPA (allergic)
Pathogenesis
Complex, not fully understood
numbers of cells, mediators, nerves, and vascular leakage -activated by expose to allergens or several mechanism
Inflammation
Eosinophils, T-lymphocytes, macrophages and mast cell
Remodeling
Deposition of repair collagens and matrix proteins-damage
Loss of ciliated columnar cells- metaplasia –increase no of secreting goblet cells
Pathologic features of asthma
i. Inflammatory cell infiltration of the airways
ii. Increased thickness of the bronchial smooth
muscle
iii. Partial or full loss of the respiratory epithelium
iv. Subepithelial fibrosis
v. Hypertrophy and hyperplasia of the
submucosal glands and goblet cells
vi. Partial or full occlusion of the airway lumen by
mucous plugs
vii. Enlarged mucous glands and blood vessels
Pathophysiology
Smooth muscle contraction
Thickening of airway –cellular infiltration and
inflammation
Excessive secrection of mucus
Genetic factor
Cytokine gene complex (chromosome 5)-IL-4
gene cluster control IL-3, IL-4 , IL-5 and IL-13
Environment factor
Childhood expose irritants or childhood infection
Pathophysiology
Extrinsic asthma: Atopic/allergic, occupational, allergic bronchopulmoary aspergillosis.
Atopic or allergicDust, pollens, animal dander, food etc.
Family history of atopy.
↑ serum IgE. Skin test with Ag wheal, flare (
Classical IgE mediated response)
Exposure of pre-sensitised mast cells to the Ag stimulates chemical mediators from these cells. Type 1 hypersensitivity.
1.Early phase Inhaled Antigen
Sensitised mast cells on the mucosal surface mediator release.
Histamine bronchoconstriction, increased vascular permeability.
prostaglandin D 2 bronchoconstriction, vasodilatation.
Leucotriene C4,D4, E4 Increased vascular permeability, mucus secretion and bronchoconstriction.
Direct subepithelial parasympathetic stimulation bronchoconstriction.
2.Late phase
starts 4 to 8 hours later
Mast cell release additional cytokine
Influx of leukocytes(neutrophil,eosinophil)
Eosinophils are particularly important- exert a
variety of effect
Pathophysiology Atopic Asthma
Trigger
Eg.dust,pollen,
animal dander
TH2
cell
IL5
IL4
Eosino
phil
IgE B
cellMast
cellIgE antibody
Mediators
Eg.Histamine, leu
kotrines
Bronchospasm
Increase vascular permeability
Mucus production
Immediate
phase(minutes)
Bronchial inflammation
Environment factor Genetic prediposition
Bronchial hyperreactivity + trigger factors
Cough, Wheeze, Breathlessness, Chest tightness
Oedema
BronchoC
Mucus production
Airways narrowing
Aetiology and triggers
Complex and multiple environmental and
genetic determinant
a) Genetic factors
b) Allergen exposure house dust
mite, household pets, grass pollen
c) Atmospheric polutionsulphur
dioxide, ozone, ciggerate smoke, perfume
d) Dietary deficiency of antioxidants vit E and
selenium may protect asthma in
children(freshfruits and vegetables)
Aetiology and triggers
e) Occupational sensitizers isocyanates(from industrial coating, spray painting) colophony perfumes(electronic industries)
e) Drugs NSAIDS B-blocker(B1 adrenergic blocker drug such as atenolol
is avoided to treat HPT and angina in asthmatic pt
f) Cold air
g) Exercise exercise-induced wheeze is driven by histamin and leukotrienes which are release from mast cells when epithelial lining fluid of the bronchi become hyperosmolar owing to drying and cooling during exercise
h) Emotion
History Presenting symptoms:
Cough sputum
- time: become worse at night
- duration: chronic / acute
- associated with wheezing
- fever? URTI
Wheeze
- max during expiration and accompanied by prolonged expiration
Cough History1.Ask specifically about the symptoms:
-Cough?how is the cough?
more severe at night or on day?associated symptoms like dyspnea &
wheezing?how long is the cough?Recurrent?Any previous similar episode?Aggravated factor?like cough become severe
after exercise?or the cough is initiated after exercise?
Cough History2.If the cough is associated with dyspnea and
wheezingis it relieved by bronchodilator?
3.Ask for any precipatating factors
-whether the symptoms(cough,dyspnea,wheezing)
started after exposure to weather changes, dust,
exercise, infection or drugs?
4.Is there any pets,carpet or feather pillow in home?(easily trapped dust and the dust or animal
fur will cause exacerbation of asthma)
Dyspnoea HistoryDyspnoea
- onset: after exercise? cold? dust? animal fur? emotion?- severity and pattern: varies from day to day or from hour to hour- no chest pain
History
Clinical features
Recurrent episodes of wheezing,chest
tightness,breathlessness and cough
Precipitants- cold,allergen,pollutant,viral urti
Exercise tolerance
Disturbed sleep
Other atopic disease
Home-Pet?Carpet?
Occupation
History
Clinical features
Display diurnal pattern,symptoms
and PEF worse in the morning
Mild intermittent asthma-
asymptomatic between
exacerbation
Persistent asthma-chronic wheeze
and breathlessness
History
5.Any history of atopy(eczema,hay fever) or allergic
rhinitis?
6.Any family history of asthma?Any childhood asthmatics?
7.Whether he is a smoker or any family members is a smoker?
8.What is his occupation? Exposure to chemicals?
History
Past medical history:
Experienced asthma attack before
Taking any medications: NSAIDs / β-blocker /
aspirin (non atopic asthma)
Family history:
Has family history of asthma
History
Social history:
Occupation: expose to fumes/organic/chemical
dust
House: near to factory? Pets? Dust? Carpet?
Feather pillow?
Smoking in any family members
known asthmaticWhen he was diagnosed with asthma?
How the asthma was diagnosed?
Who diagnosed it?
Whether he is on prophylaxis?
What type of prophylaxis?
How he get the drugs and how many dosage of the drugs?
Whether he know how to deliver the drugs properly?
How is his compliance to drugs?
Physical examination General inspection:
- tachypnoeic, sign of respiratory distress, effort of breathing, cyanosis (life-threatening)
Inspection:- fingers: tar staining- pulse rate: tachycardia and pulsusparadoxus, bradycardia (life-threatening)- used of accessory muscles or recession- wheezing
Chest
Inspection:- shape: hyperinflated in severe asthma- movement of chest/silent chest (life-threatening)- chest deformity:- recession:
Palpation:- chest expension may be reduce (hyperinflated)/ normal- apex beat: may be displaced-vocal fremitus: decrease
Percussion:
- may be hyperresonance / normal
Auscultation:
- breath sound: vesicular
- ronchi in expiratory phase, may be both in severe asthma
- prolonged expiratory phase
-vocal resonance decrease / normal
Clinical featuresSign
• Tachypnoea,audible wheeze,hyperinflatedchest,hyperresonant percussion note,diminished air entry,widespreadpolyphonic wheze
• Severe attack – inability to complete sentences, pulse >110bpm, RP>25/min, PEF 33-50%
• Life-threatening attack- silent chest,cyanosis,bradycardia,exhaustion, PEF < 33%,confusion
• Pulsus paradoxus (exaggeration of the normal variation in the pulse volume with respiration, becoming weaker with inspiration and stronger with expiration )
Correlation+ The symptoms of asthma consist of a triad of
dyspnea, cough, and wheezing.
+ At the onset of an attack, patients experience a sense of
constriction in the chest, often with a nonproductive
cough.
+ Respiration becomes audibly harsh; wheezing in both
phases of respiration becomes prominent; expiration becomes prolonged; and patients frequently have
tachypnea, tachycardia, and mild systolic hypertension.
+ The lungs rapidly become overinflated.
+ If the attack is severe or prolonged, there may be a loss of
adventitial breath sounds, and wheezing becomes very high pitched.
+ The accessory muscles become visibly active, and a
paradoxical pulse often develops.
Diagnosing asthma
Diagnosing asthma
Reversible and variable airflow limitation-as measured by a peak expiratory flow (PEF) meter in any of the following ways:
PEF increases more than 15% and 200mls 15 to 20 mins after inhaling a short acting beta2 agonist, or
PEF varies more than 20% from morning measurement upon arising to measurement 12 hours later in patients who are taking a bronchodilator, or
PEF decreases more than 15% after 6 minsof running or exercise
Differential diagnosis
+ Upper airway obstruction – Tumor
– Epiglottitis
– Vocal cord dysfunction
– Obstructive sleep apnea
+ Bronchomalacia
+ Endobronchial lesion
+ Foreign body
+ Congestive heart failure
+ Gastroesophagealreflux
+ Sinusitis
+ Adverse drug reaction
– Aspirin
– Beta-adrenergic antagonist
– ACE inhibitors
– Inhaled pentamidine
+ Allergic bronchopulmonaryaspergillosis
+ Hyperventilation with panic attacks
Non-specific investigation
Non-specific:
- full blood count and differential count:
increase number of eosinophils number
- arterial blood gases
- sputum test: number of eosinophils
- chest X-ray: hyperinflated
Specific investigation
Specific:
- respiratory function test:
1. peak expiratory flow
2. spirometry
- exercise tests
-histamine/methacholine bronchial
provocation test
- trial of corticosteroids
Reversibility Test+ This test is done to see whether the
obstruction can be relieved by the use of a short-acting bronchodilator eg salbutamol
+ An improvement of 15% or more (as measured on the peak flow meter) is diagnostic of asthma.
+ However, in severe chronic disease or patient who has treated with long-acting bronchodilators, little reversibility will be demonstrated.
Reversibility testForced expiratory manoeuvres before 20 minutes after inhalation of a beta-2-adrenoceptor agonist. Note the increase in FEV1 from 1.0 to 2.5 litres.
Peak expiratory flow rate
Simple and cheap
Subject take full inspiration then blow out
forcefully into peak flow meter.
Best used to monitor progression of the
asthma and its treatment.
To access possible occupational asthma
PEFR value varies with sex, age and
height.
Peak Expiratory Flow Rate
(PEFR)
The maximum rate of air breathed out as hard as possible through a measuring device called a peak flow meter, (after a full breath taken in).
Reading is measured in litres/minute (l/min).
Take 3 readings and choose the best
Reading < 80% - presense of obstruction, but not diagnostic of asthma
Require to take a series of reading
- on waking up
- prior taking bronchodilator
- after taking bronchodilator (before
sleep)
PEF measurements1. During periods of well-being: provides
measurement of the patients best PEF value which will provide the target for the doctor and the patient to aim for.Twice daily measurements before any inhaled bronchodilator tx will determine the diurnal variability of airway calibre.Good control of asthma means PEF variability is maintained at less than 10%.
2. During symptomatic episodes: During an attack of asthma PEF fairly accurately measures the degree of bronchospasm.A PEF of less than 50% of normal or best suggests a very severe attack and a PEF of less than 30% suggests a life-threatening attack
Response to treatment
Occupational asthma
Spirometry Test
+ It is the single best diagnostic test for patients with
airflow limitation.
+ A Spirometry Test
+ - measures the volume of air blown out against time
+ - gives more specific information about lung function.
+ A value is calculated for the amount of air blown out
in one second - “Forced Expiratory Volume” or FEV1).
+ This is divided by the total amount of air blown out until
all air is expired - Forced Vital Capacity or FVC).
+ FEV1/FVC expressed as a percentage value
+ Reading is affected by age, gender and height
+ Male Spirometry reading range
Mild reduction: 2.5 litres or more
Moderate reduction :1.5 to 2.49 litres
Severe reduction :Less than 1.5 litre
+ Female Spirometry reading range
Mild reduction :2.0 litres or more
Moderate reduction: 1.0 to 1.99 litres
Severe reduction: Less than 1.0 litre
+ In asthma, the readings will be reduced, returning
to normal between episodes
TLC
VC
RV
IC
FRC
IRV
ERV
RV
TV
TLC : total lung capacity
VC : vital capacity
RV : reserve volume
IC : inspirational capacity
FRC : functional residual capacity
IRV : inspirational reserve volume
TV : tidal volume
ERV : expiratory reserve volume
Normal:75-80%
Obstructive airway disease: reduced ratio
Restrictive lung disease: ratio normal or increase (enhanced elastic recoil).
Exercise Test+ Done especially in children
+ Peak flow reading measured before hand
+ Ask patient to run for 6 min, to increase HR > 160
beats/min
+ Cannot run – use cold air
challenge, isocapnoiec (CO2)
hyperventilation, aerosol challenge with
hypertonic solution
+ After exercise – take readings at intervals of
5, 10 and 15 minutes.
+ Diagnosed asthma - fall in peak flow of 15% or
more, after exercise.
Exercise test
histamine/methacholine
bronchial provocation test
Chest X-rayShowed lung hyperinflation.
Not diagnostic of asthma
Useful to rule out other causes
eg. Pneumothorax
-----------------------------------------------Hyperinflation and increased bronchovascular markings
Allergies & AtophyAllergen Provocation Test
In suspected
occupational
asthma and food-
allergy related
asthma
Skin-Prick Test
To identify allergens
A drop of allergen is placed on skin , site is marked and pricked with needle, measured any weals
Approach to
management
Management
Severity assessment for acute setting of AEBA
Mild Moderate Severe
Breathless Walking Talking At rest
Can lie down Prefer sitting Hunched forward
Talk in Sentences Phrases Words
Alertness May be Usually agitated Agitated
Central cyanosis Absent Absent Present
Use of accessory muscle
Absent Moderate Marked
Sternal retraction Absent Moderate Marked
Wheeze on
auscultation
Moderate, often end
expiratory
Loud Loud Silent Chest
Pulsus paradoxus Not palpable May be palpable Often palpable
Initial PEF More than 80% 60 – 80% Less than 60%
Oximetry on presentation
More than 95% 91 – 95% Less than 90%
Severity of AEBA 1
Severity of AEBA 2
Severity of AEBA 3
Management of Chronic
Asthma
Aims of management
• to recognize asthma
• to abolish symptoms
• to restore normal or best possible long term
airway function
• to reduce morbidity and prevent mortality
Approach of chronic asthma
Education of patient and family
Avoidance of precipitating factors
Use of the lowest effective dose of
convenient medications minimizing short
and long term side effects.
Assessment of severity and response to
treatment.
1) Education of patient and
familyi. Nature of asthma
ii. Preventive
measures/avoidance of
triggers
iii. Drugs used and their side-
effects
iv. Proper use of inhaled
drugs
v. Proper use of peak flow
meter
vii. Knowledge of the
difference between
relieving and preventive
medications
vii. Recognition of features
of worsening asthma
increase in
bronchodilator
requirement
development of
nocturnal symptoms
reducing peak flow
rates).
viii. Self management plan
for selected, motivated
patients or parents.
ix. The danger of non
prescribed self
medication including
certain traditional
medicines.
2) Avoidance of precipitating
factorsThe following factors may
precipitate asthmatic attacks:
• Beta blockers contraindicated in all asthmatics
• Aspirin and nonsteroidal anti-inflammatory drugs if known to precipitate asthma, these drugs should be avoided.
• Allergens e.g. house dust mites, domestic pets, pollen should be avoided whenever possible.
• Occupation should be considered as a possible precipitating factor.
• Smoking active or passive.
• Day to day triggers such as exercise and cold air. It is preferable to adjust treatment if avoidance imposes inappropriate restrictions on lifestyle.
• Atmospheric pollution.
• Food if known to trigger asthma, should be avoided.
3) Medication
2 major groups of drugs:
Bronchodilator drugs
•to relieve
bronchospasm and
improve symptoms.
Anti inflammatory drugs
•to treat the airway
inflammation and
bronchial
hyperresponsiveness, the
underlying cause of
asthma, i.e. to prevent
attacks.
Drug Delivery
The inhaled route is preferred for beta2-agonists and steroids as it produces the same benefit with fewer side effects
Inhaled medications exert their effects at lower doses
pMDI is suitable for most patients as long as the inhalation technique is correct
Alternative methods include spacer devices,drypowder inhalers and breath-actuated pMDI
Nebulised route is preferred in the management of acute attacks
3 main groups of
bronchodilators [β2 agonists]
Inhaled β2agonist
• Salbutamol(Ventolin, Respolin)
• terbutaline(Bricanyl)
• fenoterol(Berotec)
• salmeterol(Serevent) - long acting
Oral long acting β2
agonist:
• salbutamol(Volmax)
• terbutaline(Bricanyl durules)
• bambuterol(Bambec)
Oral short acting β2
agonist:
• salbutamol
• terbutaline etc.
2. Anti-Inflammatory Drug
• Corticosteroids
Examples: Beclomethasonedipropionate (Becotide, Becloforte, Beclomet, Aldecin, Respocort) Budesonide (Pulmicort)
• Sodium cromoglycate(Intal)
• Other treatments
Anti-histamines including ketotifen
Anticholinergics
Examples: Ipratropium
bromide (Atrovent)
Methylxanthines
Examples: Nuelin
SR, Theodur, Euphylline
Approach To Drug Therapy -"Stepwise Approach" [step 1]Start at the step most appropriate to severity, moving up if needed or down if control is good for > 3 months. Rescued courses of prednisolone may be needed
STEP 1MILD EPISODIC ASTHMA• Infrequent symptoms • No nocturnal symptoms • PEF 80-100% predicted
Treatment:inhaled beta2 agonist "as needed" for symptom relief. If needed more than once a day, advance to Step 2
Approach To Drug Therapy -"Stepwise Approach" [step 2]STEP 2
MODERATE ASTHMA• Frequent symptoms • Nocturnal symptoms present • PEF 60-80% predicted
Treatment• inhaled steroids, e.g. beclomethasone or
budesonide 200-800 mcg/day • inhaled sodium cromoglycate plus• inhaled beta2 agonist "as needed"
Approach To Drug Therapy -"Stepwise Approach" [step 3]STEP 3
SEVERE CHRONIC ASTHMA• Persistent symptoms • Frequent nocturnal symptoms • PEF 60% predicted or less
Treatment:• inhaled beclomethasone or budesonide 800-2000 mcg/day
plus • inhaled beta2 agonist as needed plus, if necessary • oral beta2 agonist preferably long acting, or • inhaled long acting beta2 agonist, or • inhaled ipratropium bromide 40 mcg 3-4 times a day, or • oral theophylline (sustained release), or • nebulised beta2 agonist, 2-4 times a day
Approach To Drug Therapy -"Stepwise Approach" [step 4]STEP 4
VERY SEVERE ASTHMA• Persistent symptoms not controlled by step 3 medications
Treatment:• as in step 3, plus oral steroids (the lowest dose possible)
STEP DOWN• Patients should be reviewed regularly. • When the patient’s condition has been stable for 3-6
months, drug therapy may be stepped down gradually. • The monitoring of symptoms and peak flow rate should be
continued during drug reduction.
Management of acute severe asthma
•RR >50/min•PEFR <50%
•Pulse >140 beats/min•breathlessness
•10 puffs Bronchodilator and Metered Dose Inhaler
•High flow 02, bronchoD•MDI, nebulizer(1-2h)
•Oral prednisolone (3-5d)•Monitore PEFR/O2
•B2 agonist / 02 if required
•PEFR <33%•Tiredness
•Cyanosis•Decrease respiratory
effort•Silent chest
•iv aminophylline•Iv hydrocortisone
•Salbutamol•Ipratropium bromide•Adequate hydration
•antibiotic
•ICU
•Artificial ventilation•Wean iv
•Β2 Agonist•Oxygen if required•Oral prednisolone
•Monitor PEFR
•Patient’s education•Review maintenance
medication•Review inhaler
technique•Follow up
•PEFR monitor
DISCHARGE PLAN
response
Give
treatment
improve
Management Of Acute
Asthma Aims Of Management
i. To prevent death
ii. To relieve respiratory distress
iii. To restore the patient’s lung function to the best possible level as soon as possible.
iv. To prevent early relapse
1. Assess severe attackSevere attack:
a) Unable to complete sentencesb) RR>25/minc) PR>110 bpmd) PEF< 50% of predicted or best
Life-threatening attack:a) PEF<33% of predicted or bestb) Silent chest, cyanosis, feeble respiratory effortc) Bradycardia/ hypotensiond) Exhaustion, confusion, or comae) ABG : normal/high PaCO2>5kPa (36mmHg)
PaO2< 8kPa (60mmHg)low pH, e.g. <7.35
2. Start treatment immediately• Sit patient up & give
high dose O2 in 100% via non-rebreathing bag
• Salbutamol 5mg (or terbutaline 10mg) + ipratropium bromide 0.5 mg nebulized with O2
• Hydrocortisone 100mg IV/prednisolone 30 mg PO (both if very ill)
• CXR to exclude pneumothorax
If life threatening features (above) present:
• Inform ITU, and seniors
• Add MgSO4 1.2-2g IV over 20 min
• Give Salbutamol nebulizers every 15 min, or 10mg continuously per hour
Further managementIf improving• 40-60% O2
• Prednisolone 30-60mg/24h PO• Nebulized salbutamol every 4 h• Monitor peak flow and O2 saturations
If not improving after 15-30min• Continue 100% O2 and steroids• Hydrocortisone 100mg IV or prednisolone 30mg PO
if not already given• Give Salbutamol nebulizers every 15 min, or 10 mg
continuously per hour• Continue ipratropium 0.5 mg every 4-6h
Post-attempt….If patient still not improving
• Discuss with seniors and ITU.
• Repeat salbutamol nebulizers every 15 mins
• MgSO4 1.2-2g IV over 20 min, unless already given.
• Consider aminophylline, if not already on a theophylline. Alternatively, give salbutamol IVI.
Monitoring the effects of treatment
• Repeat PEF 15-30min after initiating treatment
• Pulse oximeter monitoring: maintain SaO2 >92 %.
• Check blood gases within 2h if:initial PaO2 was normal/ raised or initial PaO2 <8 kPa (60mmHg) or patient deteriorating
• Record PEF pre- and post-β-agonist in hospital at least 4 times.
Once patient improving…Once patient is improving
• Wean down and stop aminophylline over 12-24 h.• Reduced nebulized salbutamol and switch to
inhaled β-agonist.
• Initiate inhaled steroids and stop oral steroids if possible
• Continue to monitor PEF. Look for deterioration on reduced treatment and beware early morning dips in PEF
• Look for the cause of the acute exacerbation and admission
Component 1: Patient-Doctor
relationship
Component 2: Identify and
Reduce Exposure to Risk Factors
Follow-Up and Monitoring
Include review of symptoms and measurement of lung function
o PEF monitoring at every visit along with review of symptoms helps in evaluating the patient’s response to therapy and adjusting tx.PEF consistently >80% of the patient’s personal best suggests good control.
o Regular visits (at 1 to 6 month interval as appropriate) is essential even after control of asthma is established
Asthma Management Plan
When PEF >80%: continue current dose of inhaled corticosteroids
When PEF 60-80%:double the dose of inhaled corticosteroids
When PEF 40- 60%:start rescue course prednisolone
When PEF persists below 60% despite rescue course prednisolone with worsening symptoms,advised to come to EMERGENCY DEPT immediately
Management of asthma in
pregnancy
In general during pregnancy,asthma becomes worse in a third of women,is stable in another third and improves in the remaining third.
Women should be reassured that their asthma medication carries less risk to the foetus than a severe asthma attack
Inadequately treated asthma can cause maternal and foetal hypoxaemia,which leads to complications during pregnancy and poorer birth outcomes
Management: Pregnancy in
asthmatics
Treatment should be aggressive,with the aim of eliminating symptoms and restoring and maintaining normal lung function
Beta2 agonists: No evidence of a teratogenic risk with the commonly used inhaled beta2 agonists
Ipratropium bromide: appears to be safe for use during pregnancy
Salmeterol/formoterol: not been tested extensively in pregnant women
Management: Pregnancy in
asthmatics
Theophyllines: may aggravate the nausea and GERD and can caause transient neonatal tachycardia and irritabilityTeratogenicity has been shown in animals.
Sodium cromoglycate: no adverse foetal effects Inhaled corticosteroids: mainstay of tx in
persistent asthma,good safety profile in pregnancy
Oral corticosteroids: necessary for severe asthma in pregnancy but usually only for short periods.Increased risk of cleft palate in animals given huge doses of oral steroids
Anti-leukotrienes: no data available
Labour and Breastfeeding
Women with very severe asthma may be advised to have an elective caesarean section at a time when their asthma control is good
Breastfeeding should be continued in women with asthma
In general,asthma medications are safe during pregnancy and lactation and the benefits outweigh any potential risks to the foetus and baby
Allergic Rhinitis and Asthma
80% of patients with asthma have allergic rhinitis
When allergic rhinitis is undetected or untreated,patients have frequent exacerbations not responding to conventional treatment
Nasal inhalation of corticosteroids are mainstay of treatment with or without oral antihistamine
Status AsthmaticusAcute exacerbation of asthma that does
not respond to standard treatment of bronchodilators and corticosteroids.
Symptoms include chest tightness, rapidly progressive dyspnoea, dry cough and
wheezing
The lung failure means that oxygen can no longer be provided, carbon dioxide can
no longer eliminated.Hence, leading to acidosis.
It is not just
asthmaCase Presentation / UMMC
MIBMH
10.5 years old boy, known case of mild
intermittent asthma presented to HSB with:
Fever, cough and runny nose ----- 1 wk.
Hemoptysis and loss of appetite ---- 5d
No night sweating .
Seen by GP and managed with oral
antibiotic and symptomatic treatment but
the patient did not improve.
Review of symptoms
The patient is unable to lie flat for the past
2 weeks due to feeling of breathlessness.
In HSB
respiratory distress upon admission
CXR:
mediastinal mass on right perihilar region
multiple cannon ball lesions in both lung fields, so
CT thorax, abdomen and pelvis done
Huge anterior mediastinal mass encasing great vessels with lung metastasis and lymphadenopathy.
Referred to UMMC for possibility of malignancy.
Past history Asthma
since age of 7 years
not on regular follow-up or treatment/prophylaxis
mild infrequent diurnal symptoms
no interference with general activity or school attendance.
acute exacerbation: twice a year and precipitated mainly by coldness.
No hospital admission
Perinatal history: uneventful.
Developmental history: attends school,
average level, very shy.
Immunization: full schedule.
Allergy: allergic to dust.
Family and social history:
No ill family member.
No H/O contact with T.B
O/E
Looks lethargic, dyspneic RR 32/min with recessions, HR 120/min, SpO2 96% on face mask O2 5l/min, temp 36.4C
No lymphadenopathy.
Lungs: -reduced breath sounds on right medial and lower zones with crepitationson the right side
CVS: S1 + S2 , no murmur.
Abdomen: soft, liver 2cm firm.
Genitalia: pubic hair stage 3, penile
length 7.5cm, testes 2 ml each.
Breast tissue: gynaecomastia.
Growth parameters
Height: 166 cm
Upper/lower segment ratio = 1
investigations
FBC: Hb 11.9gm/dl wbc 12,600/ul plt
397,000/ul ANC 9,500/ul.
BUSE: Na 131mmol/l K 3.9mmol/l Cl 95mmol/l
urea 2.4mmol/l creat 77umol/l
LFT: alb 29gm/l t-bili 4umol/l ALP 146u/l ALT
41u/l AST 58u/l
Ca 2.37mmol/l PO4 1.23mmol/l Mg
0.83mmol/l
PBF: normal findings.
ESR: 110mm/hr
CRP: 14.8mg/dl
LDH: 511U/L
Radiological
investigations
BhCG: <2 mu/ml (L) (0-10)
AFP: 397040.9 (H) (0-6.7)
LH 11 mu/ml (H) (<0.1-6)
FSH 33 mu/ml(H) ( 1.2-2.5)
Estradiol <37 pmol/l (0-198)
Testosterone 2.3 nmol/l (L) (8.4-28.7)
DHEAS 0.5 umol/l (L) (2.2-15.2)
Karyotyping: 47 XXY, how many cells? Any evidence of mosaic Klinefelter? (waiting formal report).
diagnosis
Mediastinal germ cell tumor with bilateral
lung metastasis and pseudoprecocious
puberty.
Klinefelter syndrome.
Management and progress
Respiratory support, required BiPAP .
Required neb Salbutamol 4 hourly.
Had spikes of fever, covered with
Erythromycin and Ceftriaxone.
After 4 days in PICU transferred to P6.
Started chemotherapy(UKCCSG).
Had NNF covered with piptazocin then
imipenem and later on Ampho-B.
Became neutropenic.
All blood and respiratory cultures have no
growth.
Discussion
Klinefelter syndrome In 1942 Klinefelter et al published a paper on 9
men with large breasts, minimal sexual and body hair, small testes and inability to produce sperms.
It is the most common syndrome assoc with male hypogonadism and infertility.
Classically 47XXY, but many variants like 48 XXXY, 48XXYY,49XXXXY,49XXXYY,50XXXXYY.
It is due to meiotic non-disjunction. mosaic patients may be fertile .
Features Hypogonadism (small testes and azoospermia-
hyalinzation and fibrosis of seminiferous tubules).
Gynaecomestia in late puberty (30-50%) due to increase estradiol/testosterone ratio.
Psychosocial problems.
Elevated urinary gonadotrophins.
Mental retardation is affected by number of X chromosomes (decreased IQ 15 points for each X chromosome) [most males with 47XXY have normal intellegence, 70% have minor developmental and learning disability]
Other features:
Pes cavus, genu valgus, fifth finger
clinodactily.
Taurodontism (prominent molar teeth):
40% in Klinefelter, 1% in general
population.
Radio-ulnar synostosis---- 49XXXXY.
Increased risk of:
DM.
CVS: varicose veins, venous ulcer, DVT ,
pulm embolism, mitral valve prolapse.
Cancer: breast, leukemia, mediastinal
germ cell tumors.
Osteoporosis.
Autoimmune disease (SLE, RA, Sjogren
with increased mortality).
Mortality
40% of conceptions with Klinefelter survive
fetal period.
Mortality is not significantly higher in
healthy individuals.
Prevalence: in USA 1:500-1000
Race: no race difference.
Age: it goes undetected in most affected
males until adulthood. the common
indication for karyotyping is
hypogonadism and infertility.
investigations Mid-puberty: increase FSH and LH, decrease
testosterone.
Increase estradiol/testosterone ratio-----gynaecomastia 80%.
Cortisol should be checked (47% have low cortisol).
Decrease osteocalcin---- bone resorption.
Coagulation profile because of increased risk of DVT and pulm embolism.
Karyotyping:47 XXY 80-90 % - 10% mosaic.
Germ cell tumors Classification:
-suppressed differentiation: seminoma, dys-
germinoma.
-differentiation:
Initial embryonal carcinoma
Embryonic mature and immature teratoma
Extra-embryonic(choriocarcinoma-yolk sac tumor{endodrermal sinus tumor})
-mixed histology: mixed GCT.
Primary mediastinal germ cell
tumors
Comprise only 1-3% of germ cell tumors.
Overall teratoma is the most common variant, seminoma is the most common malignant variant.
Malignant variants are uncommon and more in males.
Benign variants are equally disributed among males and females.
Testicular examination, U/S and CT are mandatory to rule out testicular primary cancer.
Serum markers
Alpha-fetoprotein: indicates malignant
non-seminomatous type.
BhCG: suggests trophoblastic
component.
Malignant non-seminomatous and
mixed GCTs carry worse prognosis
than other GCTs.
Association of M- GCTs with
Klinefelter syndrome
Klinefelter syndrome is present in 20% of
patients with M-GCT.
The incidence of M-GCT is 50 fold
increased in patients with Klinefelter
syndrome.
M-GCT mask the usual clinical signs of
Klinefelter syndrome by inducing puberty
by BhCG.
Comparison of GCT between
KS and general population Klinefelter syndrome: All contain non-
seminominatous elements
Present at younger age (mean 17 years)
Precocious puberty is seen more often.
Almost exclusively extragonadal.
General population: Pure seminoma is the most
common malignant variant.
Older age at presentation (mean 29 years)
Precocious puberty is less often.
Only 2-5% extragonadal.
references
http://emedicine.medscape.com/
Ann Thorac Surg 1998;66:547-548
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