Dextro-Transposition of the great arteries
Name = dextro-transposition of the great arteries
ICD10 = ICD10|Q|20|3|q|20
ICD9 = ICD9|745.10
-Transposition of the great arteries (d-Transposition of the great arteries, dextro-TGA, or d-TGA), sometimes also referred to as complete transposition of the great arteries, is a cyanotic
congenitalheart defect (CHD) in which the primary arteries(the aortaand the pulmonary artery) are d.
In segmental analysis, this condition is described as with , or just ventriculoarterial discordance.
d-TGA is often referred to simply as
transposition of the great arteries(TGA); however, TGA is a more general term which may also refer to levo-transposition of the great arteries(l-TGA).
Another term commonly used to refer to both d-TGA and l-TGA is
transposition of the great vessels(TGV), although this term might have an even broader meaning than TGA.
In a normal
heart, oxygen-depleted ("blue") blood is pumped from the right side of the heart, through the pulmonary artery, to the lungs where it is oxygenated. The oxygen-rich ("red") blood then returns to the left heart, via the pulmonary veins, and is pumped through the aorta to the rest of the body, including the heart muscleitself.
With d-TGA, blue blood from the right heart is pumped immediately through the aorta and circulated to the body and the heart itself, bypassing the lungs altogether, while the left heart pumps red blood continuously back into the lungs through the pulmonary artery. In effect, two separate "circular" (parallel) circulatory systems are created, rather than the "figure 8" (in series) circulation of a normal
Variations and similar defects
Arterial spatial relationships
Differences in the shape of the
atrial septumand/or ventricular outflow tracts affect the relative positions of the aorta and pulmonary artery. In the majority of d-TGA cases, the aorta is anterior and to the right of the pulmonary artery, but it can also be directly anterior or anterior and to the left. The aorta and pulmonary artery can also be side by side, with aorta on either side. This is a less common variant, and with this arrangement, an unusual coronary arterypattern is common. There are also some cases with aorta to the right and posterior to the pulmonary artery. [Valdes-Cruz LM and Cayre RO: Chapter 24 in "Echocardiographic diagnosis of congenital heart disease". Philadelphia 1998.]
imple and complex d-TGA
d-TGA is often accompanied by other heart defects, the most common type being shunts such as
atrial septal defect(ASD) including patent foramen ovale (PFO), ventricular septal defect(VSD), and patent ductus arteriosus(PDA). Stenosisof valves or vessels may also be present.
When no other heart defects are present it is called 'simple' d-TGA; when other defects are present it is called 'complex' d-TGA.
Although it may seem
illogical, complex d-TGA presents better chance of survival and less developmental risks than simple d-TGA, as well as usually requiring fewer invasive palliativeprocedures. This is because the left-to-right and bidirectional shunting caused by the defects common to complex d-TGA allow a higher amount of oxygen-rich blood to enter the systemic circulation. However, complex d-TGA may cause a very slight increase to length and risk of the corrective surgery, as most or all other heart defects will normally be repaired at the same time, and the heart becomes "irritated" the more it is manipulated.
ymptoms and diagnoses
babywith d-TGA experiences no symptomsas the lungs will not be used until after birth, and oxygen is provided by the mothervia the placentaand umbilical cord; in order for the red blood to bypass the lungs in utero, the fetalheart has two shunts that begin to close when the newbornstarts breathing; these are the foramen ovale and the ductus arteriosus. The foramen ovale is a hole in the atrial septum which allows blood from the right atriumto flow into the left atrium; after birth, the left atrium will be filled with blood returning from the lungs and the foramen ovale will close. The ductus arteriosus is a small, artery-like structure which allows blood to flow from the trunk of the pulmonary artery into the aorta; after birth, the blood in the pulmonary artery will flow into the lungs and the ductus arteriosus will close. Sometimes these shunts will fail to close after birth; these defects are called patent foramen ovale and patent ductus arteriosus, and either may occur independently, or in combination with one another, or with d-TGA or other heart and/or general defects.
Due to the low
oxygen saturationof the blood, cyanosiswill appear in areas: around the mouth and lips, fingertips, and toes; these areas are furthest from the heart, and since the circulated blood is not fully oxygenated to begin with, very little oxygen reaches the peripheral arteries. A d-TGA baby will exhibit indrawing beneath the ribcageand "comfortable tachypnea" (rapid breathing); this is likely a homeostatic reflexof the autonomic nervous systemin response to hypoxic hypoxia. The infant will be easily fatigued and may experience weakness, particularly during feeding or playing; this interruption to feeding combined with hypoxia can cause failure to thrive. If d-TGA is not diagnosed and corrected early on, the infant may eventually experience syncopic episodes and develop clubbingof the fingers and toes.
d-TGA can sometimes be diagnosed in utero with an
ultrasoundafter 18 weeks gestation. However, if it is not diagnosed in utero, cyanosis of the newborn ( blue baby) should immediately indicate that there is a problem with the cardiovascularsystem. Normally, the lungs are examined first, then the heart is examined if there are no apparent problems with the lungs. These examinations are typically performed using ultrasound, known as an echocardiogramwhen performed on the heart. Chest x-rays and electrocardiograms (EKG) may also be used in reaching or confirming a diagnosis; however, an x-raymay appear normal immediately following birth. If d-TGA is accompanied by both a VSD and pulmonary stenosis, a systolicmurmur will be present.
On the rare occasion (when there is a large
VSDwith no significant LVOTO), initial symptoms may go unnoticed, resulting in the infant being discharged without treatment in the event of a hospital or birthing centerbirth, or a delay in bringing the infant for diagnosis in the event of a home birth. On these occasions, a layperson is likely not to recognize symptoms until the infant is experiencing moderate to serious congestive heart failure(CHF) as a result of the heart working harder in a attempt to increase oxygen flow to the body; this overworking of the heart muscle eventually leads to hypertrophy and may result in cardiac arrestif left untreated.
With simple d-TGA, if the foramen ovale and ductus arteriosus are allowed to close naturally, the newborn will likely not survive long enough to receive corrective surgery. With complex d-TGA, the infant will fail to thrive and is unlikely to survive longer than a year if corrective surgery is not performed. In most cases, the patient's condition will deteriorate to the point of inoperability if the defect is not corrected in the first year.
While the foramen ovale and ductus arteriosus are open after birth, some mixing of red and blue blood occurs allowing a small amount of oxygen to be delivered to the body; if ASD, VSD, PFO, and/or PDA are present, this will allow a higher amount of the red and blue blood to be mixed, therefore delivering more oxygen to the body, but can complicate and lengthen the corrective surgery and/or be
Modern repair procedures within the ideal timeframe and without additional complications have a very high success rate.
If the diagnosis is made in a standard
hospitalor other clinicalfacility, the baby will be transferred to a children's hospital, if such facilities are available, for specialized paediatrictreatment and equipment.
The patient will require constant monitoring and care in an
intensive care unit(ICU).
Palliativetreatment is normally administered prior to corrective surgery in order to reduce the symptoms of d-TGA (and any other complications), giving the newborn or infant a better chance of surviving the surgery. Treatment may include any combination of:
Magnetic resonance imaging(MRI)
Computed tomography(CT) scanEach type of medical imaging has its merits and drawbacks, so they are usually used in combination to provide as complete a model as possible from which to plan and prepare for the corrective surgery. Medical imaging may also be used to monitor how well the heart is functioning, or to determine whether a treatment is having the desired effect.
Rashkind balloon atrial septostomy
AngiographyCardiac catheterization is a minimally invasive procedure which provides a means of performing a number of other procedures.
A balloon atrial septostomy is performed with a
balloon catheter, which is inserted into a foramen ovale, PFO, or ASD and inflated to enlarge the opening in the atrial septum; this creates a shunt which allows a larger amount of red blood to enter the systemic circulation.
Angioplasty also requires a balloon catheter, which is used to stretch open a stenotic vessel; this relieves restricted blood flow, which could otherwise lead to CHF.
An endovascular stent is sometimes placed in a stenotic vessel immediately following a balloon angioplasty to maintain the widened passage.
Angiography involves using the catheter to release a
contrast mediuminto the chambers and/or vessels of the heart; this process facilitates examining the flow of blood through the chambers during an echocardiogram, or shows the vessels clearly on a chest x-ray, MRI, or CT scan - this is of particular importance, as the coronary arteries must be carefully examined and "mapped out" prior to the corrective surgery.
It is commonplace for any of these palliations to be performed on a d-TGA patient.
Left anterior thoracotomy
pulmonary artery banding(PAB)
Left lateral thoracotomy
**PAB (when coarctation or aortic arch repair also required)
Right lateral thoracotomy
Blalock-Hanlon atrial septectomyEach of these procedures is performed through an incisionbetween the ribsand visualized by echocardiogram; these are far less common than heart cath procedures.
Pulmonary artery banding is used in a small number of cases of d-TGA, usually when the corrective surgery needs to be delayed, to create an artificial stenosis in order to control pulmonary
blood pressure; PAB involves placing a band around the pulmonary trunk, this band can then be quickly and easily adjusted when necessary.
An atrial septectomy is the surgical removal of the atrial septum; this is performed when a foramen ovale, PFO, or ASD are not present and additional shunting is required to raise the oxygen saturation of the blood.
**PAB (when intracardiac procedures also required)
**Concomitant atrial septectomyIn recent years, it is quite rare for palliative procedures to be done via median sternotomy. However, if a sternotomy is required for a different procedure, in most cases all procedures that are immediately required will be performed at the same time.
Monitoring and maintenance
Nasogastric tube(NG tube or simply NG)
Intubation, oxygen mask, or nasal cannula
Central venous catheter
*EKGAn NG tube is used to deliver
nourishment, and occasionally medication, to the patient. Since the tube extends right into the stomach, it can also be used to monitor how well the patient is digesting their "food". Paediatricunits normally provide facilities and equipment for mothers of infant patients to pump their breastmilk, which can then be fed to the infant through the NG tube, and/or stored for later use. Oxygen therapyis commonplace for hospitalized d-TGA patients. This may range from an oxygen mask resting on the bed nearby their head to intubation. In some cases, patients are intubated as a precaution; the machine can monitor breathing and supplement the patient as much or as little as they need.
IV's are used to deliver medication, blood products, or other fluids to the patient. Arterial lines provide a constant monitor of
blood pressure, as well as a method of obtaining samples for blood gastests; central lines can also monitor blood pressure and provide blood samples, as well as provide a means to deliver medication and nourishment; fingerpricks (or heelpricks on small babies) are used to obtain blood samples for certain tests.
A sphygmomanometer may be used for intermittent blood pressure monitoring even if a patient is being otherwise monitored using a central or arterial line.
A pulse oximeter is attached to a finger or toe and provides constant or intermittent monitoring of the blood's oxygen saturation level.
An EKG creates a visual readout of how well the heart is functioning.
SedativesWhen PGE is administered to a newborn, it prevents the ductus arteriosus from closing, therefore providing an additional shunt through which to provide the systemic circulation with a higher level of oxygen.
Antibiotics may be administered preventatively. However, due to the physical strain caused by uncorrected d-TGA, as well as the potential for introduction of bacteria via arterial and central lines, infection is not uncommon in pre-operative patients.
Diuretics aid in flushing excess fluid from the body, thereby easing strain on the heart.
Analgesics normally are not used pre-operatively, but they may be used in certain cases. They are occasionally used partially for their sedative effects.
Cardiac glycosides are used to maintain proper heart rhythm while increasing the strength of each contraction.
Sedatives may be used palliatively to prevent a young child from thrashing about or pulling out any of their lines.
Jatene proceduresurgery is the preferred, and most frequently used, method of correcting d-TGA; ideally, it is performed on an infant between 8-14 days old.
The heart and vessels are accessed via median sternotomy, and a cardiopulmonary bypass machine is used; as this machine needs its "circulation" to be filled with blood, a child will require a
blood transfusionfor this surgery. The procedure involves ing both the aorta and pulmonary artery; the coronary arteries are then detached from the aorta and reattached to the neo-aorta, before "swapping" the upper portion of the aorta and pulmonary artery to the opposite arterial root. Including the anaesthesiaand immediate post operativerecovery, this surgery takes an average of approximately six to eight hours to complete.
Some arterial switch recipients may present with post-operative pulmonary stenosis, which would then be repaired with angioplasty, pulmonary
stenting via heart cath or median sternotomy, and/or xenograft.
In some cases, it is not possible to perform an arterial switch, either because of late diagnosis,
sepsis, or a contraindicative coronary artery pattern. In the case of sepsis or late diagnosis, a delayed Arterial Switch can sometimes be made possible by PAB, which may also require a concomitant construction of an aortic-to-pulmonary artery shunt.
When an arterial switch is impossible, an
atrial switchwill be attempted using either the Senning or Mustard procedure. Both methods involve creating a baffleto redirect red and blue blood flow to the appropriate artery. Since the late 1970s the Mustard procedure has been preferred.
Following corrective surgery but prior to cessation of anaesthesia, two small incisions are made immediately below the sternotomy incision which provide exit points for
chest tubes used to drain fluid from the thoracic cavity, with one tube placed at the front and another at the rear of the heart.
The patient returns to the ICU post-operatively for recovery, maintenance, and close observation; recovery time may vary, but tends to average approximately two weeks, after which the patient may be transferred to a
Transitional Care Unit(TCU), and eventually to a cardiac ward.
Post-operative care is very similar to the palliative care received, with the exception that the patient no longer requires PGE or the surgical palliation procedures. Additionally, the patient is kept on a cooling blanket for a period of time to prevent
fever, which could cause brain damage. The sternum is not closed immediately which allows extra space in the thoracic cavity, preventing excess pressure on the heart, which swells considerably following the surgery; the sternum and incision are closed after a few days, when swelling is sufficiently reduced.
The infant will continue to see a
cardiologiston a regular basis. Although these appointments are required less frequently as time goes on, they will continue throughout the lifetime of the individual, and may increase in the event of complications or as the individual approaches middle age.
The cardiology exam may include an echocardiogram, EKG, and/or
cardiac stress testin addition to consultation.
Additionally, some individuals may require ongoing medication therapy at home, which may include diuretics (such as
lasixor spironolactone), analgesics (such as tylenol), cardiac glycosides (such as digoxin), anticoagulants (such as heparinor aspirin), or other medications. If the individual has undergone stenting, an anticoagulant will be a necessity to prevent build-up around the stent(s), as the body will perceive the foreign body as a wound and attempt to heal it.
Some patients who have had an Atrial Switch such as the Mustard or Senning procedure, may have issues with SA and VA nodal transmissions. Typical symptoms indclude palpitations and problems with low heart rates. This is commonly solved with a Pacemaker unit, providing scar tissue from the original operation does not block its functionality.
More recently, ACE inhibitors have been prescribed to patients in the hope of relieving stress on the heart.
*Heart defects are the most common birth defect, occurring in approximately 1% of live births
*Approximately one million people worldwide are currently living with a CHD
*Having a child with a CHD increases an individual’s chances of having another child with a CHD from 1% to 3%. Subsequent children born with a CHD increase that individual’s chances further.
levo-Transposition of the great arteries
Transposition of the great vessels
* [http://www.ctsnet.org/doc/5518 Cardiothoracic Surgery Network (CTS"Net")]
* [http://www.cincinnatichildrens.org/health/heart-encyclopedia/anomalies/transposition.htm Heart Center Encyclopedia, Cincinnati Children's Hospital Medical Center]
* [http://heart.healthcentersonline.com/CongenitalHeartDisease/transofgreatarteries.cfm HeartCentreOnline]
* [http://med-lib.ru/english/oxford/transp_arteries.shtml Med-Lib]
* [http://www.pediheart.org/practitioners/defects/ventriculoarterial/d-TGA.htm PediHeart]
* [http://heartcenter.seattlechildrens.org/conditions_treated/transposition.asp Seattle Children's Hospital Heart Center]
* [http://home.cc.umanitoba.ca/~soninr/TGA.html Variety Children's Heart Centre]
Wikimedia Foundation. 2010.
Look at other dictionaries:
dextro-Transposition of the great arteries — Classification and external resources ICD 10 Q20.3 ICD 9 745.10 … Wikipedia
levo-Transposition of the great arteries — Classification and external resources ICD 10 Q20.5 ICD 9 745.12 … Wikipedia
Levo-Transposition of the great arteries — Infobox Disease Name = Levo Transposition of the great arteries Caption = DiseasesDB = 13259 ICD10 = ICD10|Q|20|5|q|20 ICD9 = ICD9|745.12 ICDO = OMIM = MedlinePlus = eMedicineSubj = eMedicineTopic = MeshName = MeshNumber = Transposition of the… … Wikipedia
Transposition of the great vessels — Infobox Disease Name = PAGENAME Caption = DiseasesDB = 13259 ICD10 = ICD10|Q|20|3|q|20 ICD9 = ICD9|745.1 ICDO = OMIM = MedlinePlus = eMedicineSubj = ped eMedicineTopic = 2548 MeshID = D014188 Transposition of the great vessels (TGV) is a group of … Wikipedia
Transposition der großen Arterien — Klassifikation nach ICD 10 Q20.3 Diskordante ventrikuloarterielle Verbindung Transposition der großen Gefäße (vollständig) … Deutsch Wikipedia
Rastelli procedure — The Rastelli procedure is an open heart surgical procedure developed by Italian physician and cardiac surgery researcher Giancarlo Rastelli, which is used to correct certain combinations of congenital heart defects (CHDs): #dextro Transposition… … Wikipedia
Jatene procedure — Intervention ICD 9 CM 35.84 The Jatene procedure, or arterial switch, is an open heart surgical procedure used to correct dextro transposition of the great arteries (d TGA); its development was … Wikipedia
Congenital heart defect — Classification and external resources The normal structure of the heart (left) in comparison to two common locations for a ventricular septal defect (right), the most common form of congenital heart defect. … Wikipedia
Atrial septostomy — is a surgical procedure in which a small hole is created between the upper two chambers of the heart, the atria. This procedure is primarily used to treat dextro Transposition of the great arteries or d TGA (often imprecisely called transposition … Wikipedia
Blue baby syndrome — (or simply, blue baby) is a layman s term used to describe newborns with cyanotic conditions, such as *Cyanotic heart defects **Tetralogy of Fallotcite web |url=http://www.jhu.edu/gazette/aprjun95/may3095/30blue.html |title=Hopkins pioneered blue … Wikipedia