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P res e nt e d by: T hit ipho ng Ra k s ak i t
 Operation of Cardiac surgery in adult

0 1 Operati on of Cardiac surger y i n adult
Principle of Cardiopulmonary bypass

0 2 Pri nc ipl e of Cardiopulmonary bypass
Cardiopulmonary bypass management

0 3 Cardiopulmonary bypass managem ent
Extracorporeal circulation in Thoracic Aortic surgery

0 4 Extracorporeal circulati on in Thorac ic Aortic surgery

0 5 Cell Saver
 AVR
CABG
MVR

Valve MV repair

Open TVA

Heart Congenital Simple (ASD , VSD)

Surgery Complex

Ascending AO
Aorta
Arch of AO

Other Descending AO
Operation of Cardiac surgery in adult

Bypass conduit
Internal mammary artery (LIMA , RIMA)
Radial artery
Saphenous vein
Gastroepiploic artery
Operation of Cardiac surgery in adult

Vein to Vein

Y graft
sequential graft
Operation of Cardiac surgery in adult
Operation of Cardiac surgery in adult
Operation of Cardiac surgery in adult
Operation of Cardiac surgery in adult
Principle of Cardiopulmonary bypass

1. Inability to operate on a heart
that was still beating.

2. Stop and Restart heart less than 3 min.
Principle of Cardiopulmonary bypass

First use of Hypothermia
in adult and pediatric open heart surgery.
Principle of Cardiopulmonary bypass

Dr. Lillehei initiated Cross-Circulation : linked the two Circulatory
systems between child and adult donor.
Principle of Cardiopulmonary bypass

John H. Gibbon, on May 20, 1953, ASD.
The first successful application in humans.
P ri ncip le of C ardi op ulm ona r y bypas s
P ri ncip le of C ardi op ulm ona r y bypas s
P ri ncip le of C ardi op ulm ona r y bypas s

Heart Lung Machine Heater Cooler Gas Blender Tubing Set

Cardioplegia Set
Hemoconcentator Arterial Filter
Oxygenator
P ri ncip le of C ardi op ulm ona r y bypas s
Principle of Cardiopulmonary bypass

Role of Cannulas
- Venous Cannula
- Aortic Cannula

- Suction Cannula

- Vent Cannula

- Cardioplegia Cannula

- Other Accessory
Principle of Cardiopulmonary bypass

Venous Cannula
Principle of Cardiopulmonary bypass

Used in case :

CABG
AVR
Aorta
Two Stage
Venous Cannula
(Single Caval)
Principle of Cardiopulmonary bypass

Single Stage Used in case :
Venous Cannula
(Bi Caval)
MV repair
MVR
TV repair
ASD
VSD
Principle of Cardiopulmonary bypass

Femoral Venous Cannula
Principle of Cardiopulmonary bypass

Aortic Cannula
Principle of Cardiopulmonary bypass

Femoral Aortic Cannula
Principle of Cardiopulmonary bypass

Vent Cannula
Principle of Cardiopulmonary bypass

Suction Cannula
Principle of Cardiopulmonary bypass

Antegrade Cardioplegia Cannula
Principle of Cardiopulmonary bypass

Retrograde Cardioplegia Cannula
Principle of Cardiopulmonary bypass

Direct Cardioplegia Cannula
Principle of Cardiopulmonary bypass

Cardioplegia Adaptor

Multiple perfusion

Y type adaptor
Principle of Cardiopulmonary bypass

Other Accessory in CABG

Aortic Punch
Principle of Cardiopulmonary bypass

Other Accessory in CABG

Coronary Suction
Principle of Cardiopulmonary bypass

Other Accessory in Valve replacement

Valve sizer
Principle of Cardiopulmonary bypass

Other Accessory in Valve repair

Ring sizer
Principle of Cardiopulmonary bypass

Other Accessory in Aortic Dissection / Aneurysm

Distal perfusion Adaptor
Principle of Cardiopulmonary bypass

Other Accessory in Open Chamber Case
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CO2 Circuit
Cardiopu lmon ary byp ass managem en t

Surgical Procedure

Incision & Cannulate &
Median ON CPB On AOX
Connect to HLM
sternotomy

De-air & Maintain Start Start
OFF AOX Cardioplegia Procedure Cardioplegia

Wean De-cannulate
OFF CPB & Stop bleed
Cardiopu lmon ary byp ass managem en t

CPB TIME

ON CPB On AOX

De-air & Maintain Start Start
OFF AOX Cardioplegia Procedure Cardioplegia

Wean
OFF CPB
Cardiopu lmon ary byp ass managem en t

AOX TIME

On AOX

De-air & Maintain Start Start
OFF AOX Cardioplegia Procedure Cardioplegia
01 Pharmacology & Fluid management
02 Temperature management
03 Acid - base management
04 Hemodynamic management
05 Myocardial protection
Patient 3 mg/kg Dose 3 mg/kg
CPB circuit 1 mg/kg

- is a heparin antagonist
Before Canulation ACT > 200 sec - produced from the sperm of salmon
Before on Suction pump ACT > 300 sec
Before on CPB ACT > 480 sec
Pharmacology & Fluid management

ACT baseline Cannulation On Pump
Bolus Heparin
(80-120 sec) 3 mg/kg by Anest (ACT > 200 sec) Suction
(ACT > 300 sec)

Maintain
OFF CPB ACT > 480 mins Start Procedure ON CPB
(check ACT or Heparin 1 mg/kg ACT > 460 or 480 sec
every 1 hr.)

Start
De-cannulation Check ACT
Protamine
3 mg/kg
Pharmacology & Fluid management

Vasopressor
Pharmacology & Fluid management

Vasopressor SVR Vasodilator SVR
▪ Levophed® / Norepinephrine
▪ Sevoflurane
▪ Phenylephrine
▪ Nicardipine
▪ Adrenaline / Epinephrine

▪ Ephedrine
Pharmacology & Fluid management

KCL

𝚫𝑲 ×𝑩𝑾 ×𝟎.𝟑
KCL =
𝟐

โดยที่ 𝚫𝑲 = 𝟒 − 𝑲ล่าสุด
Cardiopu lmon ary byp ass managem en t

Magnesium Sulfate

Regular Insulin, RI

Lidocaine
Pharmacology & Fluid management

Mannitol 20% 20% Albumin

Dose 3-5 cc/kg

Priming 4 cc/kg

Before off CPB 1 cc/kg
Pharmacology & Fluid management

FLUID MANAGEMENT
CRYSTALLOIDS
Adequate hemodilution allowing cooling
safely
Reduces colloid osmotic pressure leading to
extracellular water retention

COLLOIDS
Albumin coats circuit surfaces- reducing
interaction of blood components, HCT during CPB
reduces platelet activation and
destruction Adult (Europe) 20 - 25 %
Adult (Asian) 25 - 30 %
Pediatric 30 - 35 %
 Pharmacology & Fluid management

Volume Overload with Low Hct
Conventional Ultrafiltration (CUF)

CKD or ESRD
Hemodialysis
Modified Ultrafiltration (MUF)

Electrolyte imbalance
Zero balance Ultrafiltration (Z-BUF)

Hemoconcentator
Pharmacology & Fluid management

Conventional Ultrafiltration (CUF)
Pharmacology & Fluid management

Zero balance Ultrafiltration (Z-BUF)
Pharmacology & Fluid management

Hemodialysis

Dialysate
0.45% NSS 1,000 ml
3% Sodium chloride 50 ml
Sodium bicarbonate 50 ml
Pharmacology & Fluid management

Modified Ultrafiltration (MUF)
Temperature management

Classification of hypothermia
๐
Normothermia 36.5 – 37.5 C
๐
Mild hypothermia 32 – 35 C
๐
Moderate hypothermia 26 – 31 C
๐
Deep hypothermia 20 – 25 C
๐
Profound hypothermia < 20 C
Rapid rewarm and Cooldown → cerebral injury and Micro air embolism

๐
1. Core temp. (No different 4 C )
- Nasopharyngeal or Esophagus temp.
- Rectal Temp.
๐
2. Blood temp. & Water temp. (No different 10 C )
Nasopharyngeal temp. < 37.5 °C
Rectal Temp. acceptable range of 35.5°C – 36.5°C
Heater Cooler
Acid-base management

Respiratory Acidosis / Alkalosis

𝑃𝐶𝑂2 ×𝑮𝒂𝒔 𝒇𝒍𝒐𝒘
Adjusted gas flow = 𝟒𝟎

𝑃𝑎𝑂2 adjusted by 𝐹𝑖𝑂2
(Normal 200 – 300 mmHg)
Gas flow
𝑭𝒊𝑶𝟐
Acid-base management

Metabolic Acidosis / Alkalosis

𝑩𝑬 × 𝑩𝒘
Metabolic Acidosis = add 𝑁𝑎𝐻𝐶𝑂3 ( )
𝟒
(Keep 𝐻𝐶𝑂3 = 22-26 mmol/L and BE ± 2)

Metabolic Alkalosis = Stop Diuretic drug
Acid-base management

pH 7.35 – 7.45
𝑃𝐶𝑂2 35 – 45 mmHg
𝐻𝐶𝑂3 22-26 mmol/L
BE ±2
Sa𝑂2 100 %
Sv𝑂2 >75 %

Glucose < 200 mg/dL
Lactate < 2 mmol/d

+
𝑵𝒂 135 – 145 mEq/L
+
𝑲 3.5 – 5.0 mEq/L
 Hemodynamic management

A - line

C - line

CPB
Hemodynamic management

Arterial Blood Pressure
Blood pressure = Pump flow rate (CO) × SVR
Pump flow rate = BSA × Cardiac index

Cardiac index (CI) = 2.4 – 3.5 L/min/m2
𝑯𝒕 × 𝑩𝒘
𝑩𝑺𝑨 =
𝟑𝟔𝟎𝟎 𝑴𝑨𝑷 − 𝑪𝑽𝑷
𝑺𝑽𝑹 = × 𝟖𝟎
𝑪𝒂𝒓𝒅𝒊𝒂𝒄 𝒐𝒖𝒕𝒑𝒖𝒕
Hemodynamic management

Autoregulation of Cerebral blood Flow
Hemodynamic management

Autoregulation of Renal blood Flow

MAP In mild to moderate hypothermia
Normal adult 50-70 mmHg
Higher pressure required in Hypertension,
DM, risk of stroke, CKD and old age
Hemodynamic management

CVP approximate 0 mmHg
Urine Output 0.5 - 1 cc. / Kg. / hour
Arterial line Pressure < 250 mmHg
Hemodynamic management
Hemodynamic management

Goal directed perfusion

Goal directed perfusion is a type of blood flow management used during
Cardiopulmonary Bypass.

The goal is to maintain adequate blood flow to vital organs and tissue to provide
enough Oxygen, with the use of various monitoring techniques such as blood pressure,
mixed venous Oxygen saturation and Cardiac index.

This approach is intended to improve patient outcomes by reducing the risk of organ
damage and also to maintain Aerobic metabolism
Hemodynamic management

WHAT GOAL DIRECTED PERFUSION CAN PREVENT?

Acute Kidney Injury (AKI)
Hypoperfusion at Tissue Levels which cause HyperLactemia
Tissue Hypoxia leading to Anaerobic Cellular Metabolism
Oxygen Supply/ Demand Imbalance leading to Vital Organs injury
Risk of morbidity and mortality
Longer Length of ICU stay and overall hospital length of stay
Hemodynamic management

Keep 𝑫𝑶𝟐 > 𝟐𝟕𝟐 𝒎𝒍𝑶𝟐 /min/m2
Hemodynamic management
Hemodynamic management
Hemodynamic management
Myocardial protection

Strategies of myocardial protection in CPB

1. Without cardioplegia
- Beating
- Fibrillating heart

2. With cardioplegia (Stop the heart)
Myocardial protection

Good cardioplegia composition
Immediate arrest
Decrease temperature
Provide substrate for energy production
Buffer, to maintain appropriate pH
Membrane stabilization
Avoid myocardial edema
Myocardial protection

Types of cardioplegia
Crystalloid cardioplegia
- Neonate, short operation (ASD)

Blood cardioplegia (1:1, 4:1)
- Acetar 500 cc
- Cardioplegia solution 60 cc
- Sodium bicarbonate 28 cc
- 50% Glucose 25 cc
- Hydrocortisone 1.25 cc ( 1 vial = 100 + sterile water 2 cc)
- Humulin R 0.05 cc
Myocardial protection

ECG Pattern of Hyperkalemia
Myocardial protection

Custodiol
HTK solution
The only single shot cardioplegia
Perfusion Volume 30 ml/kg during 8 min

Arrest heart 90 min
Myocardial protection

Del Nido Cardioplegia

Blood : Cardioplegia 1:4
Single dose 20 cc/kg
Maintenance dose 10 cc/kg

Arrest heart 90 min
Myocardial protection

Route Flow (cc/min) Pressure (mmHg)
Antegrade 250 - 350 250 - 300

Retrograde 100 - 150 100 – 150 or
30 – 50 in Coronary sinus pressure
Direct (Right coronary) 100 - 150 100 - 150

Direct (Left coronary) 150 - 200 150 - 200

Graft > 50 < 100
E xtr ac or po re al ci rcul ati on i n Th oraci c A or ti c sur ge r y
E xtr ac or po re al ci rcul ati on i n Th oraci c A or ti c sur ge r y
 Thoracic Aortic surgery

Ascending aorta Arch of aorta Descending aorta
 Thoracic Aortic surgery

Ascending aorta Arch of aorta Descending aorta

Conventional CPB Deep hypothermia Deep hypothermia Partial bypass TEVAR
circulatory arrest with circulatory arrest
Cerebral perfusion

Femoro-Femoral bypass Left heart bypass
Cannulation

Cannul ation

Axillary artery cannulation
Cannulation

Cannul ation

Femoral Aortic and venous Cannula
Cannulation

Cannul ati on

Single Stage
Venous Cannula
(RCP)

Two Stage
Venous Cannula
(ACP)
Deep Hypothermia Circulatory Arrest (DHCA)

Deep Hypotherm ia Circ ulatory Arrest (DH CA)

HYPOTHERMIA
DEFINITIONS OF BODY TEMPERATURE

Term Temperature
Hyperpyrexia > 40 - 41.5 °C
Hyperthermia >37
Normothermia 35-37
Mild hypothermia 32-35
Moderate hypothermia 25-31
Deep hypothermia 18-24
Profound hypothermia 1 L or >20% of blood volume.
Preoperative anemia or increased
risk factors for bleeding.
Indication: Patients with rare blood group type
or antibodies.
Patient refusal to receive allogeneic
blood transfusion.
The American Association of Blood
Banks suggest cell salvage is
indicated in surgery where blood
would ordinarily be cross-matched
or where more than 10% of patients
undergoing the procedure require
transfusion.

Patients with the presence of
sickle-cell disease, sickle-cell
trait, and other RBC disorders.
Patients undergoing surgery for
Contraindication: malignancy.
Patients undergoing bowel
surgery, penetrating abdominal
injury, or surgery where infection
is present.
Patients undergoing surgery with
major obstetric hemorrhage.