Aorto-left ventricular communication after closure. Late postoperative problems

Aorto-Left Ventricular Tunnel: The First Systematic Review of An Uncommon Entity (177 Worldwide Cases from 1965 to 2024)

Background

The study was aimed at assessing clinical status and outcome of patients affected by aorto-left ventricular tunnel (ALVT).

Methods

A systematic search of keywords relating to ALVT was conducted to identify papers published between 1965 and February 2024 present on Pubmed/Medline and Scopus.

Results

A total of 109 studies, which in all consisted of case reports and case series comprising 177 patients (64.2% males, p < 0.02) met the inclusion criteria. The median age of patients was 9.5 ± 8.9 years. Initial diagnosis was based on echocardiographic findings in 86.4% of patients, and confirmed by computed tomography (CT) and/or magnetic resonance imaging (MRI) in 17%. Of the 177 patients identified, 47.1% were diagnosed with a heart murmur and 32.4% with congestive heart failure. Associated cardiac abnormalities were detected in 39.8% (unicuspid/bicuspid aortic valve with or without stenosis/atresia in 14.8%, coronary artery abnormalities in 9.6%). A total of 90.3% of patients underwent surgery, whilst 4.5% were treated by means of transcatheter closure. Outcomes were largely favorable (death was reported in 5.7%). Mild residual aortic regurgitation continued to be present in 22.7% of the sample. In terms of statistics, no risk factors for death were found.

Conclusions

ALVT, an extremely rare congenital cardiac abnormality, may be diagnosed in both newborns and adults. Initial diagnostic observations are usually made using echocardiography, and subsequently refined by means of catheterization, CT or MRI. Surgery should be performed as soon as possible following diagnosis, particularly due to the inefficacy of medical treatment. In selected cases, transcatheter closure may represent a valid option. The condition is associated with a high mortality rate. Moreover, complications, particularly in the form of residual aortic valve regurgitation, may hamper postoperative prognosis. Due to the rarity of the disease, the setting up of an international registry is recommended.

Characteristics and long-term outcomes of aortico-left ventricular tunnel

OBJECTIVES

Aortico-left ventricular tunnel (ALVT) is an extremely rare, abnormal paravalvular communication between the aorta and the left ventricle. Few studies have identified the characteristics and long-term prognosis associated with ALVT.

METHODS

The data of 31 patients with ALVT from July 2002 to December 2019 were reviewed. Echocardiography was performed in all patients during the follow-up period.

RESULTS

The median age of the patients was 11.5 years. Bicuspid aortic valve and dilatation of the ascending aorta were found in 13 patients, respectively. The aortic orifice in 20 patients showed a close relation to the right sinus and the right-left commissure. Of the 31 patients, 26 were operated on. Mechanical valve replacement was performed in 4 patients and aortic valve repair, in 6 patients. Ascending aortoplasty was performed in 5 patients and aortic replacement was done in 2 patients. One patient died of ventricular fibrillation before the operation. Follow-up of the remaining 30 patients ranged from 1 to 210 months (median 64 months). There were 4 deaths during the follow-up period: 1 had mechanical valve replacement and 3 did not undergo surgical repair. In the 26 patients without aortic valve replacement, 6 had severe regurgitation and 2 had moderate regurgitation. In the 28 patients without replacement of the ascending aorta, 11 had continued dilatation of the ascending aorta, including those who had aortoplasty.

CONCLUSIONS

The aortic orifice of ALVT showed an association with the right sinus and the right-left commissure. For patients who did not have surgery, the long-term survival rate remained terrible. Surgical closure should be done as soon as possible after ALVT is diagnosed. The main long-term complications after surgical repair included aortic regurgitation and ascending aortic dilatation.

A case of a large type IV aortico-left ventricular tunnel successfully repaired at 1 day after birth

A rare case of a patient with a large type IV aortico-left ventricular tunnel who underwent successful repair at 1 day after birth was described. To the best of our knowledge, no such cases that aortic opening was over 10 mm have been reported in the English literature. Our case demonstrated no leak or significant aortic regurgitation by a two-patch repair.

A Review of the Surgical Management of Aorto-ventricular Tunnels

We present a synthesis of 95 published investigations of the exceedingly rare tunnels that can exist between the aortic root and the left or right ventricles. From the 220 suitable cases included in these investigations, we reviewed the clinical presentations, modalities used for diagnosis, surgical approaches, and outcomes. Diagnostic information was provided by clinical presentation, radiographic findings, saline contrast echocardiography, computed tomographic angiocardiography, magnetic resonance imaging, cardiac catheterization, and angiocardiography. These techniques elucidated the coronary arterial origins and associated defects and defined the disease before surgery. Patients occasionally present with an asymptomatic cardiac murmur and cardiomegaly, but most suffer cardiac failure in the first year of life when the tunnel enters the left ventricle. Antenatal diagnosis by fetal echocardiography is reliable after 18 weeks of gestation. Associated defects, involving the proximal coronary arteries or the aortic or pulmonary valves, are present in nearly half the cases. Prompt diagnosis and surgical repair are important for a favorable outcome. Overall, operative mortality has been cited to be between 3% and 8.3%. Associated congenital coronary arterial anomalies, residual severe aortic stenosis, poor left ventricular function, and rupture of an infected suture line have been the reported causes of death. Despite early surgical intervention, an incidence of 16% to 60% postoperative residual aortic regurgitation of varying severity has been reported. The requirement of further repair or replacement of the aortic valve ranges from 0% to 50%. We submit that an increased appreciation of these details relative to the tunnels will contribute to improved surgical management.

Aortoventricular Tunnel With Severely Dilated Ascending Aorta and Bicuspid Aortic Valve in a Newborn

Aortoventricular tunnel is a rare congenital cardiovascular malformation whereby there is a paravalvular communication between the aorta and a ventricle. This unique case describes a newborn with an aortoventricular tunnel, a severely dilated ascending aorta, and a bicuspid aortic valve, which was suspected prenatally and surgically managed postnatally. (Level of Difficulty: Intermediate.)

Aorto-Right Ventricular Tunnel in Transposition of the Great Arteries

Aorto-ventricular tunnel is an extremely rare congenital heart defect, consisting of failure of attachment of an aortic leaflet along the semilunar hinge. In all published reports the leaflet involved was either the right coronary leaflet, most frequently, or the left coronary leaflet, in most of the cases opening toward the left ventricle, with only one-eighth of the reported cases communicating with the right ventricle. Treatment of the aorto-ventricular tunnel has been anecdotally reported by interventional closure with a device and more frequently with surgical approach, either as an isolated malformation or as associated lesions. To the best of our knowledge, the presence of an aorto-ventricular tunnel of the non-adjacent aortic leaflet in transposition of the great arteries has never been reported. We have observed an aorto-ventricular tunnel involving the non-adjacent leaflet of the aortic root, which after arterial switch became the pulmonary root. The patient presented 18 years after the arterial switch with progressive dilatation of the right ventricle due to severe degree of pulmonary valve regurgitation, confirmed by echocardiography and cardiac MRI. Indication for surgery was given with the plan for a pulmonary valve implantation. Because of the intra-operative finding of disconnection of the anterior leaflet of the pulmonary valve (former aortic valve) along the semilunar hinge, the surgical plan was modified and the anterior leaflet was attached to the valve annulus, with subsequent plasty in correspondence with the right and left commissurae to reduce the size of the dilated annulus to normal diameter. The post-operative course was uneventful, with extubation after few hours and discharge 4 days after surgery, with echocardiography showing trivial degree of pulmonary valve regurgitation. The patient remains in good conditions 6 months after surgery.

Diagnosis and management of aorto-left ventricular tunnel

Background:

Aorto-left ventricular tunnel (ALVT) is a rare congenital extracardiac channel with progressive left ventricular dilatation needs early correction.

Materials and Methods:

This is a report of diagnosis and management of aorto-left ventricular tunnel (ALVT) over a period of 11 years from a single institution. Seven patients (age range: 7 days-45 years) presented with heart failure. The diagnosis of ALVT was made by transthoracic echocardiogram in all cases.

Results:

Treatment was refused by two patients who died during follow-up. Surgical closure of the tunnel was done in four cases, of which one needed Bentall procedure. Two patients had residual leak after the surgery. Transcatheter closure using Amplatzer muscular device was performed in two cases (for postoperative residual leak in one and primary procedure in the other). Significant hemolysis developed in one of them, necessitating the removal of the device and closed surgically. This child underwent aortic valve replacement two years later. All the remaining patients were doing well during the median follow-up of 30 months (range: 1.5-9 years).

Conclusion:

ALVT is a rare and potentially fatal anomaly that is ideally managed surgically. Catheter closure has a limited role.

Surgical repair of aorto-ventricular tunnel

This report presents a trans-aortic trans-infundibular double-patch repair of an aorto-left ventricular tunnel in a 17-day old male child. It reviews the literature on aorto-ventricular tunnels and debates strategic and surgical options available to correct these defects. Diagnosis of the tunnel in the case described herein was made prenatally. The child was presented with left ventricular dilatation with early and progressive signs of congestive heart failure. Decision for early surgical correction was made considering the quantum of regurgitant jet, diastolic backflow in the aorta and consequent left ventricular dilatation. After establishing cardiopulmonary bypass and arresting the heart, the aorta was transversely opened above the sinotubular junction and the tunnel identified. Aortic valve morphology and the coronary ostia not involved in the tunnel were carefully investigated. Through a transverse infundibulotomy, the thinned outer wall of the tunnel abutting the posterior wall of the infundibular septum was slit open vertically, thus clearly defining the aortic and the left ventricular orifices. The distal tunnel orifice, now presenting as a subaortic Ventricular septal defect (VSD), was closed using a xenopericardial patch and running polypropylene 7-0 stitches. The aortic end of the tunnel was closed in a similar fashion through the aortotomy, remaining clear of the right coronary artery and respecting the aortic valve geometry. The marsupialized wall of the tunnel as seen through the infundibulotomy was sutured with polypropylene stitches. The aortotomy and right ventriculotomy were closed. The postoperative course was uneventful. A follow-up echocardiography at 2 years showed a perfect outcome with no residual tunnel, no aortic stenosis and trivial aortic regurgitation.

Aorto-ventricular tunnel

Aorto-ventricular tunnel is a congenital, extracardiac channel which connects the ascending aorta above the sinutubular junction to the cavity of the left, or (less commonly) right ventricle. The exact incidence is unknown, estimates ranging from 0.5% of fetal cardiac malformations to less than 0.1% of congenitally malformed hearts in clinico-pathological series. Approximately 130 cases have been reported in the literature, about twice as many cases in males as in females. Associated defects, usually involving the proximal coronary arteries, or the aortic or pulmonary valves, are present in nearly half the cases. Occasional patients present with an asymptomatic heart murmur and cardiac enlargement, but most suffer heart failure in the first year of life. The etiology of aorto-ventricular tunnel is uncertain. It appears to result from a combination of maldevelopment of the cushions which give rise to the pulmonary and aortic roots, and abnormal separation of these structures. Echocardiography is the diagnostic investigation of choice. Antenatal diagnosis by fetal echocardiography is reliable after 18 weeks gestation. Aorto-ventricular tunnel must be distinguished from other lesions which cause rapid run-off of blood from the aorta and produce cardiac failure. Optimal management of symptomatic aorto-ventricular tunnel consists of diagnosis by echocardiography, complimented with cardiac catheterization as needed to elucidate coronary arterial origins or associated defects, and prompt surgical repair. Observation of the exceedingly rare, asymptomatic patient with a small tunnel may be justified by occasional spontaneous closure. All patients require life-long follow-up for recurrence of the tunnel, aortic valve incompetence, left ventricular function, and aneurysmal enlargement of the ascending aorta.

Aorto-left ventricular tunnel: an alternative surgical approach

A 10-day-old infant was diagnosed with aorto-left ventricular tunnel. An alternative surgical approach is described. This technique may minimize the risk of aortic valve injury.

Late Outcome After Repair of Aortico-Left Ventricular Tunnel 10-Year Follow-up

Despite successful surgical repair, patients with congenital aortico-left ventricular tunnel (ALVT) are at risk of developing aortic incompetence in the late postoperative period. Two cases of ALVT were followed for 10 years with special reference to aortic incompetence and geometry of the aortic root. The patients underwent repair of ALVT, one at 4 years of age and the other at 4 months of age. The first patient had a slit-like tunnel (type I) and the aortic orifice was closed with a pericardial patch. The second patient had a large tunnel with an extracardiac aneurysm (type II) and was closed with a pericardial patch at the aortic orifice and a Dacron patch at the left ventricular orifice, thereby completely obliterating the tunnel. The last echocardiographic evaluation showed no residual flow in the tunnel and no aortic incompetence in case 1, but there was mild aortic valvular regurgitation with deformity of the right sinus in case 2. Careful long-term follow-up is necessary because patients with ALVT have some inherent structural abnormalities from the left ventricular outflow tract to the aortic root.

Aortico–left ventricular tunnel: 35-year experience

OBJECTIVES

The purpose of this study was to review our 35 years of experience with aortico-left ventricular tunnel (ALVT), with emphasis on diagnosis, surgical details, and follow-up.

BACKGROUND

Aortico-left ventricular tunnel is a rare congenital anomaly. Neonatal surgery has been advocated in all due to long-term concern of valvar aortic regurgitation (AR).

METHODS

We identified 11 patients from 1963 to August 2002. Clinical, echocardiographic, catheterization, and surgical details were reviewed.

RESULTS

Eight of 11 patients presented at less than six months old (six with congestive heart failure) and three later with a murmur, all with clinical evidence of AR. Associated lesions, most commonly aortic valve and coronary artery anomalies, were present in 45%. Catheter occlusion was considered but not performed in five. Spontaneous occlusion was documented in one. Ten had surgery (nine in our institution), seven with direct suture and two by patch closure of the aortic end of the AVLT. At follow-up (median, 5 years; 1 month to 35 years), all were asymptomatic; three had residual ALVT (one moderate, two small/trivial), with at most mild AR.

CONCLUSIONS

Aortico-left ventricular tunnel is a rare cardiac malformation with a good post-operative long-term outcome. Associated lesions occurred in 45%. Catheterization should be reserved for patients with unclear non-invasive findings or transcatheter closure. We recommend surgery for most patients. We report spontaneous closure in one patient, prompting consideration of conservative follow-up in rare small, asymptomatic AVLT.

An unusual case of aorto-left ventricular tunnel

An asymptomatic 4-year-old child was referred to our Institution with a provisional diagnosis of severe aortic valvar regurgitation in association with a ventricular septal defect. Intraoperatively, the aortic valve appeared bicuspid, and a tunnel of 7 mm diameter extending between the aorta and the left ventricle was found dividing the anterior commissure into two hemi-commissures. Repair was achieved by reconstructing the anterior commissure by direct reapproximation, and simultaneous obliteration of the aortic side of the tunnel. The aortic valvar leaflet was resuspended onto the arterial wall. This combined approach will hopefully reinforce the poorly supported aortic sinus, and may maintain aortic valvar competence over the long term. Our intraoperative diagnosis of aorto-left ventricular tunnel suggests consideration of this diagnosis when evaluating any patient with suspected aortic valvar incompetence.

Successful repair of aortico-left ventricular tunnel associated with severe aortic stenosis in a newborn

A one-day-old infant presented with severe congestive heart failure and a continuous precordial murmur. Noninvasive studies revealed an aortico-left ventricular tunnel and severe valvar aortic stenosis. Angiocardiography confirmed the diagnosis. Patch closure of the tunnel and aortic valvotomy were accomplished successfully at 24 h of age.

Successful two patch repair of the aortico-left ventricular tunnel

A 7-month-old boy with aortico-left ventricular tunnel arising from the right coronary sinus underwent surgical correction using the two patch technique. The diagnosis was confirmed by 2D and Doppler echocardiogram alone. Patch closure of both the aortic and ventricular ends of the tunnel is recommended in order to prevent postoperative aortic regurgitation and recurrence of the lesion.

Congenital Heart Surgery Nomenclature and Database Project: aortico-left ventricular tunnel

The extant nomenclature for aortico-left ventricular tunnel is reviewed for the purpose of establishing a unified reporting system. The subject was debated and reviewed by members of the STS-Congenital Heart Surgery Database Committee and representatives from the European Association for Cardiothoracic Surgery. Efforts were made to include all relevant nomenclature categories using synonyms where appropriate. The Hovaguimian classification appears most useful to surgeons: type 1, a simple tunnel with a slit-like opening at the aortic end, no aortic valve distortion; type II, a large extracardiac aortic wall aneurysm of the tunnel with an oval opening at the aortic end, with or without ventricular distortion; type III, intracardiac aneurysm of the septal portion of the tunnel, with or without right ventricular outflow tract obstruction; and type IV, a combination of type II and III. A comprehensive database set is presented, which is based on a hierarchical scheme. Data are entered at various levels of complexity and detail, which can be determined by the clinician. These data can lay the foundation for comprehensive risk stratification analyses. A minimum database set is also presented which will allow for data sharing and would lend itself to basic interpretation of trends. Outcome tables relating diagnoses, procedures, and various risk factors are presented.

Aortico-right ventricular tunnel

A 2-year-old child with aortico-right ventricular tunnel is reported for its rarity. The right coronary artery originated from the distal end of the tunnel. The frequent occurrence of coronary artery origin abnormality with this anomaly is highlighted.

Repair of aortico-left ventricular tunnel originating from the left aortic sinus

We report on a case of an 11-year-old asymptomatic child with aortico-left ventricular tunnel arising from the left aortic sinus. Preoperative transesophageal echocardiography showed a dilated aortic root with mild aortic valve incompetence and demonstrated the course of the tunnel, which originated from the left coronary sinus entering the outlet portion of the left ventricular outflow tract. Patch closure of the aortic end of the tunnel eliminated left ventricular volume overload with immediate marked reduction of cardiomegaly. At 10-month follow-up the child is asymptomatic and receiving no oral medications. Control two-dimensional Doppler echocardiography shows trivial central aortic valve incompetence.

Surgical anatomy of aorto-left ventricular tunnel

BACKGROUND

Owing to the rarity of aorto-left ventricular tunnel, surgical experience with this condition is generally limited. The anatomic configuration remains to be clarified in the light of better understanding of the normal aortic root.

METHODS

Two autopsied hearts with aorto-left ventricular tunnel were examined and compared with four normal heart specimens. The normal hearts were sectioned in a variety of planes to display the ventriculoarterial junction.

RESULTS

The leaflets of the pulmonary valve in both normal and abnormal hearts have semilunar attachments to a sleeve of freestanding ventricular musculature, the infundibulum. An extensive fibrofatty tissue plane then interposes between the freestanding infundibulum and the aortic sinuses. The aorto-left ventricular tunnels in the abnormal hearts pass within this tissue plane. The aortic orifice of the tunnel is distal to the level of the sinutubular junction, whereas the ventricular orifice is located within the interleaflet triangle between the right and left aortic sinuses.

CONCLUSIONS

Aorto-left ventricular tunnels bypass the normal ventriculoarterial junction but do not penetrate the septal musculature. This has implications for the fine-tuning of surgical repair.

Aortico-left ventricular tunnel in fetuses and infants

BACKGROUND

Aortico-left ventricular tunnel is a rare congenital abnormal communication between the aorta and the left ventricle presenting in early childhood as aortic regurgitation and cardiac failure. This condition has rarely been reported in fetuses. Operation is the only treatment, and postoperative aortic incompetence could be related to the age or the type of repair.

METHODS

We conducted a retrospective, two-institution review, from 1983 to 1995, of aortico-left ventricular tunnel diagnosed in utero and before 6 months of age.

RESULTS

Three cases of aortico-left ventricular tunnel were diagnosed in utero by Doppler echocardiography between 22 and 24 weeks' gestation. Prenatal aortico-left ventricular tunnel was associated with severe left ventricular dysfunction, aortic valve anomalies, and fetal hydrops. One death occurred in utero and one immediately after birth, and in 1 case pregnancy was interrupted. In these 3 cases the diagnosis was confirmed by autopsy. Three neonates and 2 infants had the diagnosis of aortico-left ventricular tunnel made after birth and underwent successful surgical repair. At short and midterm follow-up all patients are alive and aortic valve regurgitation is absent or trivial.

CONCLUSIONS

This series shows that aortico-left ventricular tunnel covers an anatomic spectrum of lesions. Cases diagnosed in utero by Doppler echocardiography are characterized by severe ventricular dysfunction, associated aortic valve lesions, and poor outcome. Postnatal cases represent the more favorable end of the spectrum, with no associated lesions, and can be repaired without mortality and with good functional results.

Role of transesophageal echocardiography in the management of aortic-left ventricular tunnel

A 10-year-old patient has been followed for 10 years after repair of an aortic-left ventricular tunnel (ALVT) for residual aortic regurgitation and significant recurrent leak through the ALVT. Transesophageal echocardiography (TEE) was done prior to surgery and intraoperatively to (1) clarify the precise anatomy of the ALVT, (2) evaluate the degree of aortic regurgitation, and (3) assess the repair. Delineation of the anatomy of the ALVT and assessment of the residual aortic insufficiency helped with the intraoperative decision-making. We describe the TEE findings of a residual ALVT in this patient and discuss the role of TEE in managing the lesion.

Aortico-right ventricular tunnel

We report successful closure of an aortico-right ventricular tunnel in a 3-month-old infant with heart failure. One-year follow-up shows the child to be developing normally.

Aortico-left ventricular tunnel associated with critical aortic stenosis in the newborn

Aortico-left ventricular tunnel is a rare congenital malformation. A unique case of critical aortic stenosis in a neonate accompanying aortico-left ventricular tunnel is described. Successful surgical correction was performed without invasive studies following echocardiographic recognition of the defect.

Aortico-left ventricular tunnel: long-term outcome after surgical repair

Over a 14 year period, four children (three male, one female) underwent surgical correction of an aortico-left ventricular tunnel. All presented in infancy (age range 5 days to 9 months). The presenting feature was a systolic and diastolic murmur in all, one of whom developed heart failure within 2 weeks of presentation. In the first two patients, the echocardiographic findings were inconclusive and the diagnosis was confirmed at cardiac catheterization (at 10 and 23 months of age, respectively); the other two were diagnosed echocardiographically by two-dimensional and Doppler color flow imaging. All four patients underwent surgery by patch closure of the aortic end of the tunnel (three patients) or direct suture closure (one patient) and there were no deaths. The mean age at operation was 11 months. During a mean follow-up period of 71 months (range 2 to 157), three patients have clinical and echocardiographic evidence of trivial aortic valve regurgitation, which was noted in the immediate postoperative period in one and at early (less than 6 months) follow-up study in the other two. All are symptom-free, are taking no medications and are growing and developing normally. Aortico-left ventricular tunnel can be accurately diagnosed by echocardiography. In patients presenting in infancy, echocardiography also provides the necessary morphologic information to enable surgical correction without angiography. Early operation is associated with an excellent outcome, whereas repair at a later age is associated with a high incidence of residual aortic regurgitation requiring further surgery.

Aortic-ventricular tunnel in a neonate: diagnosis and management based on cross sectional and colour Doppler ultrasonography

A five day old symptom free neonate was referred for assessment of a to and fro murmur associated with large volume pulses. Cross sectional echocardiography and colour flow mapping confirmed the diagnosis of an aortic-ventricular tunnel with forward flow into the aorta and regurgitant flow into the ventricle through both the tunnel and the dilated aortic valve ring. Surgical correction by patch closure of the aortic end of the tunnel was successfully undertaken two weeks later without any additional investigations. Postoperative echocardiography and colour flow imaging showed no aortic regurgitation and normal left ventricular dimensions and function.

Correction of aortico-left ventricular tunnel during the first day of life

Two critically ill newborns with aortico-left ventricular tunnel and severe heart failure were operated on at six and 14 hours after birth. The diagnosis was established clinically by the auscultatory finding of systolic and diastolic murmurs and by two-dimensional and Doppler echocardiography. In the first newborn, the left aortic sinus was connected with the left ventricle below the aortic valve by an aneurysmatically dilated tunnel. In the second patient, the tunnel connected the right aortic sinus and the left ventricle. The repair was performed under deep hypothermia, total hemodilution, and cardiopulmonary bypass. The tunnel was closed with two patches of Gore-Tex on the aortic and ventricular orifices. Both children are free from symptoms and are developing normally 10 and 8 months after repair.

Aortico-left ventricular tunnel: a clinical review and new surgical classification

This is a collective review of aortico-left ventricular tunnel (ALVT) in the English-language literature. We include the long-term follow-up of a previously reported patient, and a report on 2 new patients. To date, 37 cases of ALVT have been reported. Controversies regarding the definition, etiology, local anatomy, and treatment are discussed. The ages of the patients ranged from 1 day to 25 years old, and the male to female ratio was 2:1. There were associated anomalies in 27% of the patients, and moderate to severe heart failure in 59% of them. Mortality was 100% in the medically managed group; the surgical mortality was 16%. Previous surgical techniques utilized were simple closure, patch closure of the aortic end, and obliteration of the tunnel on both ends. Progressive aortic incompetence seems to be a common, but not well-documented problem on long-term follow-up. We have classified the lesion into four types (I, II, III, and IV) that have a bearing on the appropriate surgical techniques of repair, and describe a new technique for the repair of type III ALVT in which septal aneurysm is present.

Aortico-left ventricular tunnel: diagnosis based on two-dimensional echocardiography, color flow Doppler imaging, and magnetic resonance imaging

Aortico-left ventricular tunnel is a rare congenital cardiac lesion that often results in severe aortic insufficiency in infancy. In previously reported cases, the diagnosis has often been missed initially despite use of cardiac catheterization and angiography. We describe a patient who underwent successful surgical correction of this malformation at 10 months of age after the diagnosis had been established by use of two-dimensional echocardiography, color flow Doppler imaging, and magnetic resonance imaging. Aortico-left ventricular tunnel can be diagnosed by use of these noninvasive means without cardiac catheterization.

Pulsed Doppler and two-dimensional echocardiographic findings in aortico-left ventricular tunnel

Two-dimensional echocardiography was used to make the anatomic diagnosis of aortico-left ventricular tunnel in a 1 day old infant. Pulsed Doppler echocardiography allowed directional flow to be determined within the tunnel. The findings were confirmed by cardiac catheterization and by direct visualization at the time of surgical repair. Aortic valve insufficiency was excluded before and after surgery using pulsed Doppler echocardiography. The anatomy and physiology of aortico-left ventricular tunnel can thus be documented using noninvasive techniques.