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Clinical Characteristics of
Shwachman-Diamond Syndrome
Copyright:
This article is a publication of the Communications Committee of
Shwachman-Diamond Canada. It has been edited for medical accuracy by members of
the Medical Advisory Board.This article may be copied and distributed provided
it is distributed in its entirety. Individual sections should not be abstracted
and distributed out-of-context.
Introduction
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Primary features of Shwachman-Diamond
Syndrome
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Hematologic abnormalities
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Pancreatic defect
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Skeletal abnormalities
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Small stature at all ages, poor growth in childhood
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Other, less consistent, features of
Shwachman-Diamond Syndrome
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Dental
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Liver
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Eating habits
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Kidney
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Eye Problems
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Skin
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Problems in Infancy
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Early Development
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Heart problems
The genetics of Shwachman-Diamond Syndrome
The Diagnosis of Shwachman-Diamond Syndrome
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Further Reading
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Summary articles
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Large case series
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Copyright Information
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Introduction
Shwachman-Diamond Syndrome (SDS) is a rare genetic disorder. It affects many
organs in the body but the effects are variable; different people have
different symptoms. On the basis of current knowledge, all people with SDS
appear to have a pancreatic defect and hematologic abnormalities. Many have
skeletal abnormalities and short stature. There are a very wide variety of
additional complications that can affect some individuals with SDS.
It is not known exactly how frequently SDS occurs. Medical researchers
estimate that it affects approximately 1 in 50,000 births, but there is no
scientific basis for this number because we lack a simple way of establishing
the diagnosis. Some physicians think it may be more common than this because
certain people with Shwachman syndrome may be mis-diagnosed as having something
else. Conversely, some people who have been diagnosed as having SDS may not
have it.
This document presents the various clinical characteristics of
Shwachman-Diamond Syndrome sorted into two categories: the primary features
(those that are likely a direct result of the genetic fault that causes
Shwachman-Diamond Syndrome) and the secondary features (those that are less
consistently observed; some may be caused by complications arising from the
primary features).
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Primary features
of Shwachman-Diamond Syndrome
The following features (hematologic abnormalities, pancreatic defect, skeletal
abnormalities and small stature) are considered primary features of SDS because
they appear to arise directly as a result of the genetic fault. They are also
the most commonly observed features.
Hematologic
abnormalities:
In the bone marrow, blood cells are produced from very young cells called stem
cells. Three types of blood cells are produced: 1) white blood cells, including
neutrophils, which fight infection; 2) red blood cells, which carry oxygen to
all parts of the body; and 3) platelets, which help the blood to clot. All
people with SDS have at least one hematologic abnormality as a result of their
bone marrow functioning poorly.
Most people with SDS (98%) have neutropenia (low neutrophil count). In about
2/3 of these, the neutropenia is intermittent (it can come and go and
neutrophil counts may be normal between episodes of neutropenia) and in the
remaining 1/3, the neutropenia is constant (it is present all the time). People
with SDS also have another neutrophil problem. Their neutrophils may not have
the ability to find and destroy bacteria properly. This is called "poor
neutrophil mobility" and "impaired chemotaxis.
As a result of these neutrophil problems, people with SDS are at risk of
getting infections easily and often. Sometimes these infections can be serious,
even life threatening, because of the reduced ability to fight infection.
Infections can occur in many places including the lungs, ears, sinuses, mouth,
throat, blood, bones or skin. Prompt recognition of infection and early
treatment is essential.
People with SDS can have other hematological abnormalities as well: 42% have
anemia (low red cell count), 34% have thrombocytopenia (low platelet count) and
19% have pancytopenia (all cell counts low). Serious bone marrow complications
can develop. One possible complication is bone marrow failure which results in
significant under-production of all blood cells (aplastic anemia).
Some SDS patients develop acute myelogenous leukemia (AML). The risk is likely
around 20-25%, although individual studies have reported either lower or higher
rates. AML is a particularly serious form of leukemia with a low survival rate.
It is believed by many hematologists that treatment is more likely to be
successful if the leukemia is detected early. For this reason, some doctors
recommend regular bone marrow analysis in the hope of detecting early
pre-leukemic changes in the bone marrow before full-blown leukemia occurs.
The leading causes of death in people with SDS are infection, leukemia and
bone marrow failure.
Pancreatic defect:
The pancreas has two functions: 1) the production of digestive enzymes (the
"exocrine" function of the pancreas); and 2) the production of insulin which
regulates blood sugar (the "endocrine" portion of the pancreas).
People with SDS have a defective exocrine pancreas. However, the endocrine
portion of the pancreas is likely to remain normal for most people with
SDS.
The pancreatic "acinar" cells are the cells which produce digestive enzymes.
The "normal" pancreas has excess capacity; only 2% of the acinar cells need to
be functional in order to produce adequate quantities of enzymes to digest the
food one eats. If a person has less than 2% of their exocrine pancreatic
capacity, then the patient produces insufficient amounts of digestive enzymes
and cannot digest food properly. The medical term for this is pancreatic
insufficiency.
Since they have inadequate numbers of functioning acinar cells, people with
SDS usually have pancreatic insufficiency in early childhood. However, with
increasing age, up to 50% of SDS patients have some improvement in enzyme
production and can become pancreatic sufficient. However, the underlying
pancreatic defect is still present.
The symptoms of pancreatic insufficiency are bulky, foul smelling or loose
stools. These symptoms indicate that the intestines are not absorbing all of
the fat and nutrients from food (malabsorption). This can lead to malnutrition
and vitamin deficiencies (particularly vitamins A, D, E and K) and other
nutritional deficiencies.
Pancreatic insufficiency can be treated by taking replacement enzymes with
meals. As well, vitamin supplementation is usually advised. In later childhood,
those who show a slight improvement in enzyme production may be able to
decrease or even discontinue their replacement enzymes.
Skeletal
Abnormalities:
Approximately one-half of children with SDS have a skeletal abnormality called
"metaphyseal dysostosis" or "metaphyseal dyschondroplasia". When present, it
usually occurs in the hips but can also occur in the knees. This is an
abnormality that is visible by x-ray but it does not necessarily cause any
symptoms or clinical problems. However, sometimes the part of the bone that
grows (the growth plate or "metaphysis") can be affected. Rarely, the top of
the femur (the bone that runs from the hip to the knee) will develop too small
an angle to the hip (coxa vara) or the knee joint can be affected causing
"knock" knees or "bowed" knees. If present, these problems may require
surgery.
Approximately one-half of children with SDS have x-ray changes of the
cartilage in the vicinity of the ribcage (costochondral thickening).This does
not cause symptoms or clinical problems.
Approximately one-third of children with SDS have rib cage abnormalities
including shortened ribs with flared ends and a narrow rib cage. These may,
uncommonly, lead to breathing difficulties in the newborn period (severe
versions of this are called thoracic dystrophy). This usually resolves as the
child gets older.
Other skeletal problems have been reported rarely. These include clinodactyly
(bent fingers), osteopenia (thinning of the bone), growth arrest lines,
vertebral collapse, slipped femoral epiphysis (dislocation of the end of the
femur) and duplicated distal thumb phalanx (an extra thumb).
Small stature at all ages, poor
growth in childhood:
Some children with SDS are smaller than average at birth. By age 1 and later,
most children with SDS are shorter than average when compared to children of
the same age and sex. Over half are below the 3rd percentile for height.
Most children with SDS are not underweight or malnourished after diagnosis and
treatment with enzymes. Their weights are appropriate for their heights.
Even after being treated with enzymes and achieving normal nutritional status,
most children with SDS will continue to be small. Small stature (being shorter
than average) is a primary feature of Shwachman Syndrome and correction of
nutritional status and enzyme therapy will not alter this.
One consequence of small size is delayed puberty. Although it is socially
difficult for a teenager to reach puberty later than their friends, it is
actually good news in terms of their physical growth because this means that
the teenager will continue to grow for a longer period of time. Once puberty
occurs, there is a growth spurt, but there is also only a limited amount of
time that the skeleton can continue to grow.
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Other, less
consistent, features of Shwachman-Diamond Syndrome
The features described below are only observed in some people with SDS. Like
many genetic syndromes, SDS manifests differently in different people and
variation in symptoms from person-to-person is quite substantial; some people
have many of these while others have few or none of these secondary
features.
Dental:
Children with Shwachman Syndrome may have poorly developed teeth. The medical
term for this is "dental dysplasia". The cause is unknown but perhaps it is one
of the skeletal defects of the disease.
As well, there is increased risk of tooth decay (possibly due to neutropenia),
tooth enamel defects (possibly a skeletal defect or possibly caused by plaque
leaching calcium from the teeth), delayed teething (possibly due to slow
growth) and periodontal disease (possibly due to neutropenia).
As with other conditions involving neutropenia, people with SDS can lose their
teeth due to periodontal disease. People with neutropenia should see a dentist
at least every 6 months and have their teeth professionally scaled and
fluoridized regularly. The periodontal literature also suggests that, during an
episode of neutropenia, daily use of an anti-microbial mouthwash called
"Peridex" may be helpful.
Discuss with your doctor whether or not antibiotics are needed for routine
dental work and surgical procedures.
Liver:
Liver problems are often observed in people with SDS. These problems are very
mild in nature and usually of little consequence.
Liver enzyme (serum transaminase) abnormalities have been observed in
approximately 60% of people with SDS. Approximately 15% of people with SDS have
been observed to have an enlarged liver (hepatomegaly). Those with hepatomegaly
are not necessarily the same people who have liver enzyme abnormalities.
These abnormalities are more common in younger rather than older children and
may disappear with age for many patients.
Eating habits:
Some children with SDS have larger than normal appetites. This is a symptom of
their malabsorption; they are not absorbing all their food and so they eat more
to fill their calorie requirements.
Other children are reported to eat very small amounts and are described as
picky eaters. To some degree, appetite is determined by growth. A child who is
not growing as quickly will eat less food because the body is not demanding
food for growth. If weight-for-height is appropriate, then the child is likely
consuming adequate amounts of food.
Very rarely, significant feeding difficulties arise requiring tube
feeding.
Kidney:
There have been occasional reports of kidney stones in people with SDS. The
cause of these may be increased concentrations of a compound called oxalate
(which is a salt in certain foods). This is likely caused by malabsorption; the
fat in the intestines causes too much oxalate to be absorbed from food in the
intestines.
Very rare kidney conditions include renal tubular acidosis (incorrect kidney
pH causing biochemical imbalance). One SDS patient was reported to have renal
lithiasis (calcium deposits in the kidney) and another patient had an extra
ureter (the tube connecting the kidney to the bladder).
Eye Problems:
Ptosis (drooping of upper eyelid) has been reported in a few people with SDS.
Strabismus (misdirected eye), coloboma (congenital defect of eye tissue) and
punctate keratitis (inflamation of the cornea, perhaps due to vitamin A
defficiency) have each been observed once in different individuals with SDS. It
is not known if these are part of SDS. When present, these conditions are
observable very soon after birth.
Skin:
In early childhood, some children with SDS have skin problems. This can occur
on the scalp (cradle cap) or elsewhere. The symptoms may be skin rashes or dry,
rough or scaly skin (ichthyosis). This is usually outgrown in early childhood.
The cause is unknown; but it may be due to nutritional deficiencies (likely
fatty acid deficiency but perhaps vitamin deficiency) caused by
malabsorption.
Problems in Infancy:
Occasional neonatal problems include breathing and feeding problems. Either of
these may be a result of shortened ribs or may be a result of infection.
Often, in infancy, the infant either does not gain weight or even loses weight
(failure to thrive). The cause is poor digestion. Therapy which improves the
child's digestion and nutrition intake will cause the child to begin to gain
weight at an acceptable rate. However, growth failure is a primary feature of
SDS and correction of nutritional status will not alter this.
Early Development:
People with SDS have the same range of intelligence as the general population;
most have normal IQ, a few are intellectually challenged and a few are
intellectually gifted.
Motor delays and/or speech delays have been reported as an occasional problem
for children with SDS in early childhood. Some children with developmental
delays will show catch up of the delay by school age. However, for others,
developmental delays may be an early indicator of later learning difficulties.
One medical survey of 88 people with SDS reported that 16% had learning
disorders and 3% had attention deficit disorder.
Some SDS parents comment that their children are behaviourally challenging.
Because this has not been researched, we do not know the percentage of children
who experience this or the cause. There are many factors that can influence
development including early childhood infections (such as middle ear
infections), nutritional compromise in early childhood and, perhaps, the social
effects of having a chronic condition which requires lots of attention and
medical support.
Heart problems:
There have been a few reports of individuals with enlarged heart (right-sided
hypertrophy) as a result of chronic lung disease. As well, a medical article
from Finland reported some SDS children with myocardial fibrosis. There are no
reported cases of myocardial fibrosis in children with SDS from any other
countries. However, myocardial fibrosis is a known, but uncommon, complication
in cystic fibrosis.
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The
genetics of Shwachman-Diamond Syndrome
Every characteristic of an individual is determined by at least one pair of
genes. Each pair of genes is inherited; one from the father and one from the
mother. An inherited disease is caused by a faulty gene. SDS is autosomal
recessive; in order to have the disease, the genetic fault must occur in both
genes. The father and mother each may have one good gene and one faulty gene.
They do not have the disease but are carriers of the faulty gene. However, the
person with SDS inherited the faulty gene from each parent and therefore has
the disease because he/she has two defective genes.
In each pregnancy, parents of children with SDS have a 25% chance of giving
birth to a child with SDS (a child who has inherited a faulty gene from both
parents). There is a 50% chance that a child will inherit one defective gene
and one good gene and be a healthy "carrier" of the defective gene (just as the
parents are). There is a 25% chance of a child inheriting two good genes and
therefore not carry the faulty gene at all. In each pregnancy, the chance of
having another child with SDS is the same; the risk does not change based on
how many children the parents have.
Someone with SDS likely will not have children with SDS unless their spouse is
also a carrier of this rare genetic fault.
The genetic fault has recently been identified in the laboratory of Dr.
Johanna Rommens and Dr. Peter Durie (link to Hospital for Sick Children press release)
. The
actual mechanism whereby each organ is affected is not yet known.
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Diagnosis of
Shwachman-Diamond Syndrome
The variation in clinical features makes this a very
difficult disease to diagnose.
The diagnosis is generally based on evidence of exocrine pancreatic and
hematologic abnormalities. Skeletal abnormalities and short stature are
characteristics that can be used to support the diagnosis.
Now that the gene has been identified, it is expected that clinical
laboratories will introduce genetic tests in the near future.
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Further
Reading
The clinical features of SDS vary substantially from
person-to-person and you should not assume that all of the information in
this document applies to you or a member of your family. Your own physician
can help you determine which aspects of the condition do apply.
Medical publications on any subject can be mis-leading. This is partially
because diagnostic standards may vary from place to place and over time. As
well, due to the variable nature of this illness, individuals may have very
different clinical features than the people discussed in medical
publications.
The following recent articles contain complete, up-to-date information
about SDS. Some information will change as more becomes known.
Summary articles:
Gaskin KI. Hereditary Disorders of the Pancreas. Chapter 29 part 3 in
Walker, Dune, Hamilton, Walker, Watkins (ed). Pediatric Gastrointestinal
Disease: Pathophysiology, Diagnosis, Management, Vol 2; published by BC
Decker, Philadelphia 1989.
Lopez MJ, Grand RJ. Hereditary and Childhood Disorders of the Pancreas.
Chapter 79 in Sleisenger MH, Fordtran JS, Gastrointestinal Diseases:
Pathophysiology/Diagnosis and Management. Published by Sunders,
Philadelphia, 1993.
Schreiber RA. Congenital Diseases of the Exocrine Pancreas. Chapter 67 in
Wyllie & Hyams (ed) Pediatric Gastrointestinal Disease: Pathophysiology,
Diagnosis and Management. Published by Saunders, 1993.
Silverman A and Roy CC. Exocrine Pancreatic Insufficiency. Chapter 27 in
Silverman & Roy, Pediatric Clinical Gastroenterology, 3rd edition.
Published by Mosby, 1993.
Large case series:
Ginzberg H, Shin J, Ellis L, Morrison J, Ip W, Dror Y, Freedman M,
Heitlinger LA, Belt MA, Corey M, Rommens JM, Durie PR. Shwachman Syndrome:
Phenotypic manifestations of sibling sets and isolated cases in a large
patient cohort are similar. Journal of Pediatrics 135:81-88, 1999.
Mack DR, Forstner GG, Wilschanski M, Freedman MH, Durie PR. Shwachman
Syndrome: Exocrine Pancreatic Function and Variable Phenotypic Expression.
Gastroenterology 111: 1593-1602, 1996.
Smith OP, Hann IM, Chessells JM, Reeves BR, Milla P. Haematological
abnormalities in Shwachman-Diamond Syndrome. British Journal of Haematology
94: 279-284, 1996.
Genetic:
Boocock, GRB, Morrison, J, Popovic, M, Richards, N, Ellis, L,
Durie, PR, Rommens, JM. Mutations in SBDS are associated with
Shwachman–Diamond syndrome. Nature Genetics, 2002.
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