cyanosispptbydrgirishjain-160629174327.pdf
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Dec 10, 2022
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About This Presentation
Cyanosis presentation. presentation showing signs and symptoms of bluish discoloration of skin.
Slide Content
Cyanosis
Dr. Girish jain (1
st
yr PG)
Department :- Respiratory Medicine
Mahatma Gandhi Medical College and Hospital
Dr. Girish jain (1
st
yr PG)
Department :- Respiratory Medicine
Mahatma Gandhi Medical College and Hospital
Contents
•Introduction
•Mechanism
•Central, Peripheral and Differential cyanosis
•Factors affecting the detection of cyanosis
•Etiology
•Principles of Treatment
•Introduction
•Mechanism
•Central, Peripheral and Differential cyanosis
•Factors affecting the detection of cyanosis
•Etiology
•Principles of Treatment
Introduction
Bluish discoloration of the tissues and mucous
membrane that results -
•when the absolute level of reduced hemoglobin
(Deoxyhemoglobin) in the capillary bed exceeds
5g/DL.
or
• increased concentration of abnormal
Hemoglobine derivatives (eg.
Methemoglobinemia, sulphaemoglobinemia) in
the superficial blood vessels.
Bluish discoloration of the tissues and mucous
membrane that results -
•when the absolute level of reduced hemoglobin
(Deoxyhemoglobin) in the capillary bed exceeds
5g/DL.
or
• increased concentration of abnormal
Hemoglobine derivatives (eg.
Methemoglobinemia, sulphaemoglobinemia) in
the superficial blood vessels.
Mechanism of cyanosis
•Alveolar hypoventilation
•Diffusion impairment
•Ventilation-perfusion mismatch
•Right-to-left shunting at the intracardiac,
great vessel, or intrapulmonary level
•Hemoglobinopathy (including
methemoglobinemia, sulphaemoglobinemia)
that limits oxygen transport
•Alveolar hypoventilation
•Diffusion impairment
•Ventilation-perfusion mismatch
•Right-to-left shunting at the intracardiac,
great vessel, or intrapulmonary level
•Hemoglobinopathy (including
methemoglobinemia, sulphaemoglobinemia)
that limits oxygen transport
central cyanosisPerpheral cyanosis
Area generalize localize
Tongue involve Not involve
Hand shake Feel warm Feel cold
clubbing Usually present Not present
On O2 applicationPulmonary cause
improved
Not improved
Application of
warming
Not improved improved
Mechanism Diminution of
oxygen saturation
Diminution of
blood flow
Capillary refill time <2 sec >2 sec
Area generalize localize
Tongue involve Not involve
Hand shake Feel warm Feel cold
clubbing Usually present Not present
On O2 applicationPulmonary cause
improved
Not improved
Application of
warming
Not improved improved
Mechanism Diminution of
oxygen saturation
Diminution of
blood flow
Capillary refill time <2 sec >2 sec
Central cyanosis
•Pathologic condition caused by reduced
arterial oxygen saturation (SO2).
•Involves highly vascularized tissues, such as
the lips, tongue and mucous membranes,
through which blood flow is brisk and the
arteriovenous difference is minimal.
•Cardiac output typically is normal, and
patients have warm extremities.
•Pathologic condition caused by reduced
arterial oxygen saturation (SO2).
•Involves highly vascularized tissues, such as
the lips, tongue and mucous membranes,
through which blood flow is brisk and the
arteriovenous difference is minimal.
•Cardiac output typically is normal, and
patients have warm extremities.
Central cyanosis
Peripheral cyanosis
•Normal systemic arterial oxygen saturation and
increased oxygen extraction from peripheral blood,
resulting in a wide systemic arteriovenous oxygen
difference
•The increased extraction of oxygen results from
sluggish movement of blood through the capillary
circulation.
•Affects the distal extremities, and circumoral or
periorbital areas .
•Normal systemic arterial oxygen saturation and
increased oxygen extraction from peripheral blood,
resulting in a wide systemic arteriovenous oxygen
difference
•The increased extraction of oxygen results from
sluggish movement of blood through the capillary
circulation.
•Affects the distal extremities, and circumoral or
periorbital areas .
Peripheral cyanosis
Differential cyanosis
•When cyanosis is present only in the toes but not in
the fingers, it is called Differential cyanosis. It is seen
in PDA.
•When cyanosis is present only in the toes but not in
the fingers, it is called Differential cyanosis. It is seen
in PDA.
ETIOLOGY
Pulmonary causes
1. Alveolar hypoventilation
A.Central nervous system depression: asphyxia,
maternal sedation, intraventricular hemorrhage,
seizure, meningitis, encephalitis
B. Neuromuscular disease:
myasthenia gravis, phrenic nerve
injury
C. Airway obstruction: choanal atresia,
laryngotracheomalacia, macroglossia,
1. Alveolar hypoventilation
A.Central nervous system depression: asphyxia,
maternal sedation, intraventricular hemorrhage,
seizure, meningitis, encephalitis
B. Neuromuscular disease:
myasthenia gravis, phrenic nerve
injury
C. Airway obstruction: choanal atresia,
laryngotracheomalacia, macroglossia,
2. Ventilation/perfusion mismatch
A.Airway disease: pneumonia, aspiration, cystic
adenomatoid malformation, diaphragmatic
hernia, pulmonary hypoplasia, lobar
emphysema, atelectasis, pulmonary
hemorrhage, hyaline membrane disease,
transient tachypnea of the newborn
B. Extrinsic compression of lungs: pneumothorax,
pleural effusion, chylothorax, hemothorax,
thoracic dystrophy
A.Airway disease: pneumonia, aspiration, cystic
adenomatoid malformation, diaphragmatic
hernia, pulmonary hypoplasia, lobar
emphysema, atelectasis, pulmonary
hemorrhage, hyaline membrane disease,
transient tachypnea of the newborn
B. Extrinsic compression of lungs: pneumothorax,
pleural effusion, chylothorax, hemothorax,
thoracic dystrophy
3. Diffusion impairment
A. Pulmonary edema: left-sided obstructive cardiac
disease, cardiomyopathy
B. Pulmonary fibrosis
C. Congenital lymphangiectasia
A. Pulmonary edema: left-sided obstructive cardiac
disease, cardiomyopathy
B. Pulmonary fibrosis
C. Congenital lymphangiectasia
Cardiac causes
1. Decreased pulmonary blood flow-
A. Tetralogy of Fallot
B. Tricuspid valve anomaly
C. Pulmonary valve atresia
D. Critical valvular pulmonary steanosis
2. Increased pulmonary blood flow-
A. Transposition of great arteries
B. Truncus arteriosus
C. Total anomalous pulmonary venous connection
1. Decreased pulmonary blood flow-
A. Tetralogy of Fallot
B. Tricuspid valve anomaly
C. Pulmonary valve atresia
D. Critical valvular pulmonary steanosis
2. Increased pulmonary blood flow-
A. Transposition of great arteries
B. Truncus arteriosus
C. Total anomalous pulmonary venous connection
3. Severe heart failure-
A. Hypoplastic left heart syndrome
B. Coarctation of the aorta
C. Interrupted aortic arch
D. Critical valvular aortic steanosis
A. Hypoplastic left heart syndrome
B. Coarctation of the aorta
C. Interrupted aortic arch
D. Critical valvular aortic steanosis
Hemoglobinopathy :
. Methemoglobinemia: congenital or
secondary to toxic exposure >1.5gm/dl
.sulphaemoglobinemia: secondary to
toxic exposure >0.5gm/dl
.
. Methemoglobinemia: congenital or
secondary to toxic exposure >1.5gm/dl
.sulphaemoglobinemia: secondary to
toxic exposure >0.5gm/dl
.
Factors affecting the detection of
cyanosis
1. Hemoglobin concentration -
–Detected at higher levels of saturation in
polycythemic than in anemic patients.
–Significant oxygen desaturation can be present in
an anemic patient without clinically detectable
cyanosis.
cyanosis
1. Hemoglobin concentration -
–Detected at higher levels of saturation in
polycythemic than in anemic patients.
–Significant oxygen desaturation can be present in
an anemic patient without clinically detectable
cyanosis.
2. Fetal hemoglobin —
. Binds oxygen more avidly than adult
hemoglobin.
. The oxygen dissociation curve is shifted to
the left, so that for a given level of oxygen
tension (PO2), the oxygen saturation (SO2)
is higher in the newborn than older infants or
adults
. It explains that for a given level of oxygen
saturation(SO2), the PO2 is lower in
newborns.
. As a result, cyanosis is detected at a
lower PO2 in newborns compared with
older patients.
. Binds oxygen more avidly than adult
hemoglobin.
. The oxygen dissociation curve is shifted to
the left, so that for a given level of oxygen
tension (PO2), the oxygen saturation (SO2)
is higher in the newborn than older infants or
adults
. It explains that for a given level of oxygen
saturation(SO2), the PO2 is lower in
newborns.
. As a result, cyanosis is detected at a
lower PO2 in newborns compared with
older patients.
3. Skin pigmentation -
. Less apparent in the skin of patients with darker
pigmentation.
. Examination should include the nail beds, tongue,
and mucous membranes, which are less affected
by pigmentation.
. Less apparent in the skin of patients with darker
pigmentation.
. Examination should include the nail beds, tongue,
and mucous membranes, which are less affected
by pigmentation.
Investigation
•Hematocrit or hemoglobin
•Sepsis screening
•Blood glucose concentration
•Arterial blood gases (Pao2, Paco2, pH)
•Blood cultures
•Electrocardiography
•Echocardiography, cardiac catheterisation,
angiocardiography
•Hemoglobin electrophoresis- Hb M
•Hematocrit or hemoglobin
•Sepsis screening
•Blood glucose concentration
•Arterial blood gases (Pao2, Paco2, pH)
•Blood cultures
•Electrocardiography
•Echocardiography, cardiac catheterisation,
angiocardiography
•Hemoglobin electrophoresis- Hb M
Treatment of cyanosis
•It is a symptom of an underlying condition rather
than being a disease in itself.
•Treatment of cyanosis thus focus on the Treatment
of underlying disease rather than the symptom
alone.
•Symptomatic treatment of cyanosis -
1. Warming of the affected areas- Peripheral cyanosis
brought about by exposure to cold or Raynaud’s
phenomenon and acrocyanosis may be treated
symptomatically using gentle warming of the fingers
and toes.
•It is a symptom of an underlying condition rather
than being a disease in itself.
•Treatment of cyanosis thus focus on the Treatment
of underlying disease rather than the symptom
alone.
•Symptomatic treatment of cyanosis -
1. Warming of the affected areas- Peripheral cyanosis
brought about by exposure to cold or Raynaud’s
phenomenon and acrocyanosis may be treated
symptomatically using gentle warming of the fingers
and toes.
2. Oxygenation as a treatment for cyanosis-
Initial stabilization requires oxygenation. Sometimes
a breathing machine or ventilator might be required.
3.Intravenous fluids- Children who have difficulty in
feeding due to cyanosis and heart failure due to an
underlying cyanotic heart disease need to be
administered intravenous fluids.
Initial stabilization requires oxygenation. Sometimes
a breathing machine or ventilator might be required.
3.Intravenous fluids- Children who have difficulty in
feeding due to cyanosis and heart failure due to an
underlying cyanotic heart disease need to be
administered intravenous fluids.
THANK YOU
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