CEDIE   05498
CENTRO DE INVESTIGACIONES ENDOCRINOLOGICAS "DR. CESAR BERGADA"
Unidad Ejecutora - UE
artículos
Título:
Normal growth spurt and final height despite low levels of all forms of circulating insulin-like growth factor-I in a patient with acid-labile subunit deficiency
Autor/es:
HORACIO DOMENE; ALICIA MARTINEZ; JAN FRYSTYK; SONIA BENGOLEA; MARIA ROPELATO; PAULA SCAGLIA; JIAN-WEN CHEN; CARSTEN HEUCK; OLE WOLTHERS; JUAN HEINRICH; HECTOR JASPER
Revista:
HORMONE RESEARCH
Editorial:
S. Karger AG
Referencias:
Año: 2006 vol. 67 p. 243 - 249
ISSN:
0301-0163
Resumen:
Abstract
Background: In a recently described patient with acid-labile
subunit (ALS) deficiency, the inability to form ternary complexes
resulted in a marked reduction in circulating total insulin-
like growth factor (IGF)-I, whereas skeletal growth was
only marginally affected. To further study the role of circulating
versus locally produced IGF-I in skeletal growth in this
patient, we now describe in detail growth changes and their
relationship with several components of the circulating IGF
system. Design and Methods: We followed growth and development
up to the final height in a patient with complete
ALS deficiency and determined both spontaneous and
growth hormone (GH)-stimulated changes in the IGF system,
including measurements of total, free and bioactive
IGF-I, total IGF-II and insulin-like growth factor binding protein
(IGFBP)-1, IGFBP-2 and IGFBP-3. Results: The patient had
a delayed growth and pubertal onset. Six months of GH
treatment had no effect on growth. At the age of 19.3 years,
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
a delayed growth and pubertal onset. Six months of GH
treatment had no effect on growth. At the age of 19.3 years,
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
a delayed growth and pubertal onset. Six months of GH
treatment had no effect on growth. At the age of 19.3 years,
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
up to the final height in a patient with complete
ALS deficiency and determined both spontaneous and
growth hormone (GH)-stimulated changes in the IGF system,
including measurements of total, free and bioactive
IGF-I, total IGF-II and insulin-like growth factor binding protein
(IGFBP)-1, IGFBP-2 and IGFBP-3. Results: The patient had
a delayed growth and pubertal onset. Six months of GH
treatment had no effect on growth. At the age of 19.3 years,
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
a delayed growth and pubertal onset. Six months of GH
treatment had no effect on growth. At the age of 19.3 years,
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
a delayed growth and pubertal onset. Six months of GH
treatment had no effect on growth. At the age of 19.3 years,
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
up to the final height in a patient with complete
ALS deficiency and determined both spontaneous and
growth hormone (GH)-stimulated changes in the IGF system,
including measurements of total, free and bioactive
IGF-I, total IGF-II and insulin-like growth factor binding protein
(IGFBP)-1, IGFBP-2 and IGFBP-3. Results: The patient had
a delayed growth and pubertal onset. Six months of GH
treatment had no effect on growth. At the age of 19.3 years,
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
a delayed growth and pubertal onset. Six months of GH
treatment had no effect on growth. At the age of 19.3 years,
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patient
presented a delayed but normal growth spurt without
any marked increment of circulating IGF-I.
he spontaneously completed puberty and had a normal
growth spurt for a late adolescent (peak height velocity of
8.4 cm/year). A normal final height was attained at 21.3 years
(167.5 cm; 0.78 SDS). During as well as after puberty, basal
levels of total, free and bioactive IGF-I were low, as were total
IGF-II, IGFBP-1, IGFBP-2 and IGFBP-3. GH treatment for 6
months normalized free IGF-I and increased bioactive IGF-I,
but had no effect on growth velocity. Conclusions: This case
story shows that in the presence of complete ALS deficiency,
a height within normal limits can be obtained despite low
levels of all forms of circulating IGF-I. Furthermore, the patien