We are the combination of four hospitals: the General Hospital, the Children’s Hospital, the Women’s Hospital and the Traumatology, Rehabilitation and Burns Hospital. We are part of the Vall d’Hebron Barcelona Hospital Campus: a world-leading health park where healthcare plays a crucial role.
Below we will list the departments and units that form part of Vall d’Hebron Hospital and the main diseases that we treat. We will also make recommendations based on advice backed up by scientific evidence that has been shown to be effective in guaranteeing well-being and quality of life.
Vols saber com serà la teva estada a l’Hospital Universitari Vall d’Hebron? Aquí trobaràs tota la informació.
Complete atrioventricular septal defect is a congenital heart condition caused by a hole in the wall separating the left and right chambers of the heart.
This is a congenital heart defect caused by a hole in the wall separating the left and right chambers of the heart. This communication affects both the atria (the upper chambers) and the ventricles (lower chambers).
The cause of the defect is the formation of endocardial cushions, which are responsible for the creation and joining of the atrioventricular valves with the cardiac septum, the wall that separates the two chambers.
This heart defect is also characterised by having just one atrioventricular valve in place of two; the tricuspid and mitral valves.
Children with this heart defect show classic symptoms of heart insufficiency or failure. This includes frequent respiratory infections, difficulty feeding and gaining weight.
This makes up 4 % of all heart disease and around half of the heart defects that affect children with Down's syndrome.
Diagnosis is via 2D echocardiogram.
New-born babies tend to undergo surgery for this heart defect when they are six months old. The procedure consist of closing the interventricular or interatrial hole using a patch. The atrioventricular valve is also reconstructed to create a valve on the right side and another on the left.
In children under six months with severe symptoms, a prior palliative procedure called pulmonary cerclage is carried out. This procedure is carried out by narrowing the pulmonary artery using a band to decrease excessive pulmonary flow.
Osteosarcoma, or osteogenic sarcoma, is a cancer of the bone cells. It is a malignant tumour that can spread to almost any organ or tissue in the body. It usually starts in the ends of the bones of the legs or arms, but can be found in other bones. It is most commonly found in the distal femur (above the knee), the proximal tibia (below the knee), the proximal humerus (the arm below the shoulder). It can spread to almost any organ or tissue in the body, but tends to go to the lungs first. It often occurs in children and young people between 10 and 20 years old who are undergrowing a rapid growth spurt. It tends to appear in an area where there has been trauma, but the relationship between this injury and the risk of developing osteosarcoma is currently unknown.
The most common symptoms are pain in the area of the tumour and swelling or a lump.
Movement may cause pain to increase.
If the tumour is in the hip or leg the child may limp.
Malignant neoplasms in children and adolescents are rare, but they are one of the most important causes of mortality in these age groups. Osteosarcoma represents 4% of cancers diagnosed in children throughout Spain. Every year in Spain there are around 40 new cases in children under 14 years of age.
There are different tools to diagnose osteosarcoma:
These tests will help to determine the size and location of the tumour and whether it has spread to another part of the body. This information determines which phase it is in and is necessary to decide the best treatment to follow.
Osteosarcoma is treated using two kinds of therapy: surgery (to save or amputate the limb) and chemotherapy.
Chemotherapy is usually given a few weeks before and after surgery. The type of surgery depends on the size and location of the tumour, and on the age of the child.
There are currently no measures to prevent this kind of tumour.
Diphtheria is an acute infectious disease caused by the Corynebacterium diphtheriae bacteria and which only affects humans. It may show up as a condition of the upper respiratory tract (tonsils, pharynx and nasal mucosa). The bacteria produces an exotoxin that is responsible for the clinical symptoms of the disease. In adults, it can be fatal in 5-10% of cases, and in children this rises to 20%.
The characteristic symptom of respiratory diphtheria is a greyish white membrane (pseudomembrane) covering the tonsils and pharynx. The membrane tends to be difficult to remove and in doing so the area bleeds easily.
The most common symptoms are:
Thanks to vaccination, there have been no cases diagnosed in Spain for over thirty years. In 2015, however, there was one case in a child who had not been vaccinated.
Diphtheria is transmitted through respiration or close physical contact with an infected person or a healthy person carrying the bacteria but who has never shown symptoms.
The incubation period is two to seven days and it can be spread from seven days before symptoms appear up to two or three weeks afterwards.
Diagnosis is confirmed via microbial culture of clinical samples (swabs from the nasal mucosa, pharynx or pseudomembranes).
Diphtheria antitoxin medication and an antibiotic such as penicillin G procaine must be given as soon as possible (in the first 48 hours after showing symptoms, without waiting for the laboratory diagnosis).
Vaccination is the main measure to prevent diphtheria and is effective in 95% of cases. It must be periodically boosted as the effects of the vaccination do not last for ever.
Epidemiological monitoring and prophylaxis are essential to control the bacteria and to avoid secondary cases.
Meningitis is an inflammation of the meninges, which are the membranes covering the brain and spinal cord. This is generally caused by an infection that is bacterial, viral or fungal.
Meningitis may also have various non-infectious origins such as trauma and tumours.
There are two types of meningitis:
Bacterial meningitis is a serious disease requiring immediate medical attention. Three microorganisms are the cause of the disease. They are naturally present in the pharynx, where they are commensal, or “friendly”, bacteria. The disease can progress very quickly. This happens when these microorganisms invade the blood stream. Bacterial meningitis is spread through respiratory secretions, for example when we cough or kiss. People sharing a home are likely to be infected.
Meningitis may also include nausea and vomiting, sensitivity to bright light, drowsiness, falling into a coma or convulsions.
The first symptoms of bacterial and viral meningitis are similar. However, bacterial meningitis is generally severe and can cause serious complications such as brain damage or learning difficulties.
In bacterial meningitis, the bacteria in the blood can give rise to another serious disease, septicaemia, which is the body’s generalized reaction to infection and which may have various consequences such as:
In the most serious cases it can be fatal. In this case, the appearance of small spots on the skin is cause for alarm.
Bacterial meningitis can be contracted by any age group but the elderly and young children are most at risk. In the last twenty years its epidemiology has changed significantly with the introduction of new vaccines linked to child vaccination programmes.
Whilst meningococcus is the main cause of bacterial meningitis around the world, in Spain meningococcal disease is not endemic, with an annual rate of fewer than 5 cases for every 100,000 people. Meningococcal meningitis may lead to death in 3-15 % of cases.
Many of the viruses that cause the disease are present worldwide and others are specific to particular regions.
If meningitis is suspected, blood and cerebrospinal fluid (the liquid around the spinal cord and brain) samples will be analysed. Cerebrospinal fluid is obtained via lumbar puncture. Analysis will help confirm the disease and will identify the microorganism causing it.
Most cases of infectious or viral meningitis improve without treatment in 7-10 days. However, it is very important that people with symptoms of meningitis receive immediate medical care to make a correct diagnosis of the disease, to determine the type of meningitis and to receive the right treatment.
In the case of bacterial meningitis, antibiotic treatment must be administered intravenously as soon as possible. Anti-inflammatories may also be used to treat any complications that may arise.
Burns occur when the body comes into contact with a source of energy that raises the temperature of the tissue. This produces tissue damage in which proteins coagulate and cause the cells to die. Even a localised injury may affect the organs and internal systems. In most cases, burns occur because our body comes into contact with a source of thermal energy, in other words, its temperature is higher than our body’s and heat transfer takes place. This is the case with flames, boiling water, hot objects and radiation from the sun. Other types of burns are caused by mechanical energy produced by friction such as dragging.
When burns are extensive and cover 15% of an adult’s body or 10% of a child or a person over 50 years old, they are called “minor burns”. When they occur, a high number of pro-inflammatory molecules are released from the burn and reach the rest of the body through circulation of the blood. During the acute stage, the permeability of the blood vessel membranes and of the body's cells is increased, which results in changes to the distribution of liquid in the body and the depression of cellular function.
To tackle the burn, a few days later the body initiates a generalised inflammatory response via a notable increase in catabolism processes in order to obtain energy resources. It also initiates a hyperdynamic response that transfers these resources to the injured areas. If the burn does not heal quickly, the inflammatory response may consume the body's resources, exhaust the patient, cause organ failure and, ultimately, death.
Once healed, however, there may be lasting functional and aesthetic consequences due to scarring or retraction. This is the case with hypertrophic and keloid scars; thickened areas of scar tissue that limit the mobility of joints, retraction of the eyelids, microstomia, and others.
Burns are graded depending on their severity and they also look different:
Burns are a common, serious and debilitating traumatic injury that mainly results from accidents in the workplace, the home or traffic accidents. The Spanish Society of Family and Community Medicine estimates that three out of every thousand people a year suffer burns requiring medical attention. Primary care centres (CAPs) deal with most cases, but 15-20% will require admission to hospital.
Diagnosis is clinical and treatment must be carried out by highly specialised professionals as this is not a common pathology.
Depending on the degree of the burn, treatment may be:
Most burns are avoidable and therefore the main tools for prevention are education and legislation in society.
It is a hole that may be found in any part of the partition dividing the ventricles, and may be one hole or multiple, and of varying sizes and shapes. VSD may be associated with more complex heart defects such as tetralogy of Fallot, transposition of the great arteries or atrioventricular canal.
Small ventricular septal defects reduce in size over time and in many cases may close up by themselves, particularly during the first two years of a child’s life. The overall rate of spontaneous closure is 30-35% of cases.
In general, children with small VSD do not show any symptoms and So their eating habits, growth and development are all normal. This hole is detected via the presence of a murmur during the first weeks of life.
Children with a medium or large VSD develop symptoms in the first few weeks after being born. These may be:
VSD is one of the most common heart defects, if we do not include bicuspid aortic valve. It represents around 20% of all heart defects.
VSD is detected by an echocardiogram, which can confirm the number, size, location and functional repercussions.
Babies with small VSD do not need surgical treatment.
Those with medium to large VSD who develop cardiac insufficiency, on the other hand, must undergo medical treatment. If symptoms persist, early corrective surgery will be carried out, which consists of closing the hole with a patch, or a device implanted by cardiac catheterization.
If there are no other defects associated with the VSD, surgical mortality is 0%. After the operation, patients can lead a normal life the same as the rest of the population.
It is a hole in the partition that separates the two atria and that causes the right side of the heart to be overloaded. Children with ASD do not show symptoms, even though the right side of the body has to work with a much larger volume of blood.
Depending on the position of the atrial septal defect, ASD is classified into three types:
“Ostium Primum” is considered a different defect due to the damage associated with it.
ASD is one of the most common heart defects (6-10%) and is more common in women.
In most cases, children with ASD show no symptoms. For this reason, it is detected when listening to the heart during a routine examination detects a heart murmur. In that case, an echocardiogram should be carried out on the patient to identify the defect and determine treatment options.
When the defect is small with no significant blood flow no procedure may be necessary. On the other hand, if this is significant, the characteristics of the ASD must be assessed to decide if it is necessary to close it via catheterization or surgery.
Closure via catheterization consists of inserting a device to close the defect and stop blood passing from one chamber of the heart to the other.
When the defect is large or its shape prevents the percutaneous device entering, this closure must be performed through surgery. The procedure consists of fitting a patch over the hole in the partition, made either from synthetic material or tissue taken from the patient themselves.
Children who have undergone ASD closure have a similar life expectancy and quality of life to healthy patients. In fact, the survival rate is over 99.7%. In contrast, patients with ASD who do not undergo surgery see a decline in their life expectancy after forty years old.
Chagas disease is an infection caused by the “Trypanosoma cruzi” parasite which is transmitted through the bites of an insect (the “kissing bug”). The disease can also be spread from mother to child (vertical transmission), through blood transfusion, organ donation from people infected with the disease or from eating food contaminated with the parasite. For the moment, the number of new cases has been reduced thanks to policies to eliminate the insect in countries where it is endemic, as well as thanks to screening programmes aimed at blood and organ donors and pregnant women. The future challenges to cure this disease are maintaining and increasing these measures in addition to developing new treatment evolution and response markers for patients in the chronic phase, and new drugs to treat the disease.
Chagas disease is endemic to Latin America and is a global health challenge due to migration from countries in the region. Transmission via insect is mainly found in Bolivia, which has the highest number of cases. There are also infections in north-west Argentina, Peru, Paraguay, Ecuador, Nicaragua and southern Mexico. Outside these areas it is more commonly transmitted from mother to child.
Most patients with Chagas disease do not show any symptoms, which makes it difficult to detect. The disease develops in two phases:
This disease affects six to seven million people, but 60 million are estimated to be at risk of infection. There are 11,000 cases in Catalonia.
There are currently two drugs that are used to treat Chagas disease: Benznidazole and Nifurtimox. Specific treatment is needed to address any cardiac and/or gastrointestinal complications that may arise.
Since 2011, Catalonia has implemented the “Protocol for screening and diagnosing Chagas disease in pregnant Latin American women and their babies”. This programme allows possible congenital cases to be detected, and at the same time actively screens blood and organ donations from donors.
Total anomalous pulmonary venous connection (TAPVC) means that there is no connection from the pulmonary veins to the left atrium. Instead, they are redirected to the right atrium through an unusual connection. This defect affects new-borns and may need urgent surgery depending on its severity. Other, less severe cases may be detected when the baby is a few weeks or months old. In these cases, surgery is also necessary.
In a heart that functions normally, veins take oxygenated blood from the lungs to the left side, and from here to all parts of the body.
In people with TAPVC, oxygenated blood reaches the right side, where it mixes with deoxygenated blood and passes through a hole in the interatrial wall to the left atrium. This means that oxygen levels are lower in these children.
This anomaly works in different ways depending on the level of severity:
An echocardiogram can detect if a child has TAPVC. This is carried out within a few hours of birth for babies with TAPVC with obstruction. In other children, it is customary to carry out the test after listening to the heart and detecting a murmur and observing low blood oxygen levels.
In addition, an additional imaging test is usually done, such as computed tomography (CT scan) or an MRI to study the anomaly or defect.
Patients with TAPVC have to undergo surgery. In this procedure, the pulmonary vein flow is redirected to the left atrium and the anomalous communication with the right atrium corrected.
New-borns with TAPVC with obstruction are in a life-threatening situation. It is therefore necessary to perform surgery as soon as they are born to correct the anomaly.
For patients with TAPVC without obstruction, elective surgery can be performed once diagnosis is made.
Children who have had surgery for TAPVC can live a normal life and do not require further procedures. However, cardiological monitoring is necessary.
This is a heart condition affecting babies in which the two main arteries of the heart (the aorta and the pulmonary artery) originate in the right ventricle. This kind of disorder may be associated with other alterations such as ventricular septal defect (VSD) or pulmonary valve stenosis.
A ventricular septal defect (VSD - or interventricular communication) is a hole in the partition separating the two ventricles. Communication between them is necessary, as it allows oxygenated blood from the left chamber to pass to the aorta.
In the case of double outlet right ventricle (DORV), however, oxygenated and unoxygenated blood becomes mixed, meaning the oxygen level is lower than normal. Different corrective measures must be taken depending on the characteristics of the condition.
Besides this, some children may have pulmonary valve stenosis, which is when there is an obstruction in the blood flow to the lungs.
Double outlet right ventricle is diagnosed via echocardiogram. It is increasingly detected prenatally or when a baby has just been born. In some cases, imaging or catheterization techniques have to be undertaken to look at the DORV in detail to determine the most appropriate surgical procedure.
DORV and related damage is usually surgically repaired during the first six months of life. In this procedure, the left ventricle is connected to the aorta, and the septal defect is therefore closed off.
In babies without pulmonary stenosis, a band is also usually fitted around the pulmonary artery to reduce the excessive pulmonary blood flow.
A different procedure has to be carried out on babies with pulmonary stenosis. In this case, the valve has to be repaired with a patch enlargement, or in more serious cases, using a conduit. If stenosis is severe, it may be necessary to perform intermediary surgery to increase lung flow and reach an adequate level of oxygen in the blood before the final repair can be carried out.
Most patients need no further intervention during their lifetime, apart from children who have been given corrective surgery such as a conduit into the pulmonary artery. In this case further surgery will certainly be required. Despite this surgery, most children treated will be able to lead a normal life, although they will have to be monitored by a cardiologist.
Select the newsletter you want to receive:
By accepting these conditions, you are agreeing to the processing of your personal data for the provision of the services requested through this portal, and, if necessary, for any procedures required by the administrations or public bodies involved in this processing, and their subsequent inclusion in the aforementioned automated file. You may exercise your rights to access, rectification, cancellation or opposition by writing to web@vallhebron.cat, clearly stating the subject as "Exercising of Data Protection Rights". Operated by: Hospital Universitari Vall d'Hebron - Institut Català de la Salut. Purpose: Manage the user’s contact information. Legitimisation: Express acceptance of the privacy policy. Rights: To access, rectify, and delete personal information data, as well to the portability thereof and to limit and/or oppose their use. Source: The interested party themselves.