1.The effects of human growth hormone on short stature.
Journal of the Korean Pediatric Society 1991;34(7):999-1008
No abstract available.
Human Growth Hormone*
;
Humans*
2.Growth of Children with Hypochondroplasia Treated with Growth Hormone for Two Years.
Bo Ram CHOI ; Moon Young SONG ; Byung Kyu SUH ; Byung Churl LEE
Journal of Korean Society of Pediatric Endocrinology 1998;3(1):23-27
PURPOSE:Hypochondroplasia is a skeletal dysplasia characterized by poor childhood growth and an inadequate pubertal growth spurt. Final height attainment of hypochondroplasia has been reported to range between 120 and 152cm. Increased availability of growth hormone with the introduction of recombinant human growth hormone has allowed for clinical trials in a number of growth hormone sufficient children with growth problems. The purpose of this study was to assess the growth promoting effect of human growth hormone in children with hypochondroplasia. METHODS:Five patients with hypochondroplasia diagnosed by clinical and radiological findings between 1993 and 1997 at our hospital was aged 3 and 1/2 -11 and 1/2 years. Each patients continuously received human growth hormone 0.6-0.7U/Kg/week, intramuscularly or subcutaneously in 6-7 divided dose for 2 years. Standard auxologic assessment was carried out every 3 month interval in the first year after commencement of therapy and then same assessment was 6 monthly. Bone age was assessed 6 monthly using Gleurich-Pyle method. RESULTS:Mean height velocity of pretreatment and year 1 and 2 of GH treatment were 3.9+/-0.7, 6.5+/-1.8 and 5.7+/-1.5cm/year, respectively. Mean height standard deviation score for chronological age of pretreatment and year 1 and 2 of GH treatment were -2.7+/-0.3, -2.4+/-0.3 and -2.2+/-0.4, respectively. The increase in the height velocity diminishes over the subsequent year. The increment of bone age after GH treatment were same as the increments of chronological age. CONCLUSION: Short-term GH therapy increases the height velocity of children with hypochondroplasia, but the effect of GH therapy on final height remains unknown.
Child*
;
Growth Hormone*
;
Human Growth Hormone
;
Humans
3.Effects of human growth hormone treatment in healthy older female.
Jeong Tack WOO ; Deog Yoon KIM ; Sung Woon KIM ; In Myung YANG ; Jin Woo KIM ; Young Seol KIM ; Kwang Won KIM ; Young Kil CHOI ; Jong Eun PARK
Journal of Korean Society of Endocrinology 1992;7(4):352-357
No abstract available.
Female*
;
Human Growth Hormone*
;
Humans*
4.Severe trismus due to bilateral coronoid process hyperplasia in growth hormone therapy patient: a case report.
Journal of the Korean Association of Oral and Maxillofacial Surgeons 2012;38(4):249-254
Bilateral coronoid process hyperplasia is a rare condition characterized by an enlarged mandibular coronoid process. The painless progressive reduction of a mouth opening is caused by coronoid process impingement on the posterior aspect of the zygomatic bone. Hyperplasia of the bilateral coronoid process leads to the restriction of a mandibular opening consequent to the impingement of the enlarged coronoid process on the temporal surface of the zygomatic bone or with the medial surface of the zygomatic arch. The process has been diagnosed as developmental hyperplasia. Otherwise, the development of the coronoid process may be associated with growth hormone. This paper describes a case of trismus caused by coronoid hyperplasia in an idiopathic short-stature patient who received growth hormone therapy by somatropin injections.
Growth Hormone
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Human Growth Hormone
;
Humans
;
Hyperplasia
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Mouth
;
Trismus
;
Zygoma
6.Risk of cancer in patients treated with recombinant human growth hormone in childhood
Annals of Pediatric Endocrinology & Metabolism 2019;24(2):92-98
Recombinant human growth hormone (GH) has been in use for over 30 years, and its indications have gradually expanded from the classical replacement therapy in GH deficiency (GHD) to pharmacological therapy in patients with normal GH secretion. The insulin-like growth factor-I (IGF-I ) is closely GH dependent and is the effector of GH biological actions in peripheral tissues. Since IGF-I has potent mitogenic and antiapoptotic effects, the use of GH, especially outside GHD, has raised safety concern regarding cancer risk. The results of experimental, epidemiological and observational studies are not univocal and a number of biases and confounders affect the interpretation of data. The aim of this review is to critically review the data linking GH therapy during childhood with cancer risk, highlighting strengths and weaknesses of the available evidence.
Bias (Epidemiology)
;
Growth Hormone
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Human Growth Hormone
;
Humans
;
Humans
;
Insulin-Like Growth Factor I
7.Response to three years of growth hormone therapy in girls with Turner syndrome.
Hong Kyu PARK ; Hae Sang LEE ; Jung Hee KO ; Il Tae HWANG ; Jin Soon HWANG
Annals of Pediatric Endocrinology & Metabolism 2013;18(1):13-18
PURPOSE: Short stature is the most common finding in patients with Turner syndrome. Improving the final adult height in these patients is a challenge both for the patients and physicians. We investigated the clinical response of patients to growth hormone treatment for height improvement over the period of three years. METHODS: Review of medical records from 27 patients with Turner syndrome treated with recombinant human growth hormone for more than 3 years was done. Differences in the changes of height standard deviation scores according to karyotype were measured and factors influencing the height changes were analyzed. RESULTS: The response to recombinant human growth hormone was an increase in the height of the subjects to a mean value of 1.1 standard deviation for subjects with Turner syndrome at the end of the 3-year treatment. The height increment in the first year was highest. The height standard deviation score in the third year was negatively correlated with the age at the beginning of the recombinant human growth hormone treatment. Different karyotypes in subjects did not seem to affect the height changes. CONCLUSION: Early growth hormone administration in subjects with Turner syndrome is helpful to improve height response to the treatment.
Adult
;
Growth Hormone
;
Human Growth Hormone
;
Humans
;
Karyotype
;
Medical Records
;
Treatment Outcome
;
Turner Syndrome
8.Clinical Effects of Eutropin(Recombinant Human Growth Hormone) in Patients with Turner Syndrome.
Duk Hee KIM ; Byung Chul LEE ; Sae Yon YANG ; Yoo Yong CHUNG
Journal of Korean Society of Pediatric Endocrinology 1998;3(2):172-183
Background:Eutropin is a recombinant human growth hormone preparation and has been used in patients with growth hormone deficiency. Short stature is a characteristic feature of Turner syndrome, which is caused by sexual chromosomal anomalies. Growth hormone therapy would increase growth velocity and increase the ultimate final height in patients with Turner syndrome. The purpose of this study was to evaluate the clinical effects and safety in patients with Turner syndrome with Eutropin treatment. Subjects and METHODS:60 patients with Turner syndrome,who were diagnosed by chromosome study,were treated with Eutropin 1IU/kg/week for 12 months and followed up every 3 month. The height and weight were evaluate at 0, 3, 6, 9, 12 months. A complete blood count, ESR, urinary analysis and chemistry studies were done every 3 month. IGF- I , T4, TSH & anti-GH antibody were measured at 6 months and 12 months. Chest X-ray was checked at 0, 6 ,12 months. RESULTS:60 patients were enrolled but 10 patients were lost or treated irregularly and excluded in the study of growth effect. but included all cases in safety analysis. At the onset of Eutropin therapy,their mean age was 10.8+/-2.9 years old(range 4.2- 14.9yr)and the height was 121.1+/-13.7cm(-3.1+/-0.9 SDS) and yearly growth velociy was 3.4+/-1.5cm. Their weight was 30.5+/-10.6kg and bone age 9.1+/-3.0 yrs. After Eutropin treatment, mean height was increased to 123.2+/-13.5cm at 3 months, 125.2+/-13.1cm at 6 months, 127.5+/-12.4cm at 9 months, 128.3+/-12.8cm at 12 months. Height velocity were increased to 8.3+/-3.1cm at 3 months, 8.1+/-2.6cm at 6 months, 7.6+/-1.9cm at 9 months and 7.1+/-1.9cm at 12 months(P<0.001). Height SDS at 0, 3, 6, 9, 12 months were -3.1+/-0.9, -2.9+/-1.0, -2.7+/-0.9, -2.7+/-0.9 respectively(P>0.001).Their bone age were 9.1+/-3.0yr, 9.6+/-2.9yr, 10.2+/-2.7yr before and 6 & 12 months after treatment respectively. HA/BA were 0.84+/-0.15, 0.87+/-0.13, 0.88+/-0.12 at before and 6 & 12 months after treatment respectively(P<0.05). Growth velocity of 4-8 yrs group was most prominent compared to other groups. Serum IGF- I concentration was increased from 167.4+/-85.8ng/ml to 368.4+/-158.1ng/ml at 6 months and 423.2+/-181.0ng/ml at 12 month(P<0.001) after treatment. No significant changes were observed in thyroid function, CBC, ESR, Blood chemistry and urinalysis. Anti-hGH antibody were positive in 2 patients, but these didnot attenualte the growth velocity. CONCLUSION: Treatment with Eutropin increased significantly height velocity in patients with Turner syndrome. No specific adverse events were observed during Eutropin therapy.
Blood Cell Count
;
Chemistry
;
Growth Hormone
;
Human Growth Hormone
;
Humans*
;
Thorax
;
Thyroid Gland
;
Turner Syndrome*
;
Urinalysis
9.The Effect of Recombinant Human Growth Hormone on Neutrophil Activity in Children.
Hun Taeg CHUNG ; Jong Duck KIM ; Hoon RYU ; Du Young CHOI
Korean Journal of Immunology 1997;19(4):629-638
We investigated the acute effect of recombinant human growth hormone (rhGH) on the activity of polymorphoneuclear leukocyte (PMN). We selected 6 patients of growth hormone deficient and 5 normal control children. In both groups, 0.15 IU/kg of rhGH was administered subcutaneously. The plasma growth hormone level were measured by radioimmunoassay on 0, 2, and 6 hours after administration of rhGH. To determined PMN activity, peripheral blood PMN were separated by discontinuous density-gradient centrifigation. Isolated PMN were stimulated hy fMLP and PMA and then respiratory burst activity of PMN was determined. The average growth hormone level of growth horrnone deficient and normal group were increased to the level of 41.6+/-23.7 and 96.3+/-46.5 ng/ml respectively, 2 hours after rhGH injection and decreased to the level of 18.5+/-10.6 and 42.2+/-5.5 ng/ml respectively, 6 hours after rhGH injection. Superoxide (O ) production by PMN which was stimulated by PMA was increased from 9.98+/-5.18 to 38.67+/-19.19 (x 10'cpm) after 6 hours of rhGH injection in control group children. It seemed that administration of the rhGH do not made a any effects acutely on PMN activity in growth hormone deficient group. But in a normal control children, extemal administration of rhGH acutely increased activity of PMN.
Child*
;
Growth Hormone
;
Human Growth Hormone*
;
Humans*
;
Leukocytes
;
Neutrophils*
;
Plasma
;
Radioimmunoassay
;
Respiratory Burst
;
Superoxides
10.Growth Hormone and Cortisol Responses to Insulin Stimuli in Children with Short Stature.
Hwa In KIM ; Jae Hwa OH ; Du Young CHOI ; Jong Duck KIM
Journal of Korean Society of Pediatric Endocrinology 1999;4(2):194-200
PURPOSE: For evaluation of the growth hormone and cortisol responses to insulin stimuli in children with short stature, the human growth hormone secretion and cortisol level was monitored 30 and 60 minutes after insulin infusion by intravenousely. METHODS: The inclusion criteria of children for this study were that the height was below 3 percentile compare with the same sex and age children, bone age was younger more than one year of chronologic age, and insulin and L-dopa induced growth hormone secretion was below 10ng/mL. There were 10 children compatible with this criteria(group A) and 11 children was selected for control group(group B). Serum concentration of growth hormone was determined just before intravenous infusion of 0.1U/kg insulin and then 30 and 60 minutes after insulin infusion. Serum level of cortisol was determined simultaneously with the growth hormone but skip the level of the 30 minutes after insulin infusion. Serum glucose level was monitored on every time sampling the blood for determined growth hormone and cortisol level. Serum level of growth hormone and cortisol were determined by radioimmunoassay. RESULTS :The serum glucose concentration were decrease to under 50% of baseline level on 30 minutes after insulin infusion in A and B group. The serum growth hormone level before insulin infusion was 2.5+/-1.78ng/mL and changed to 2.2+/-1.69 ng/mL on 60 minutes after insulin infusion in group A. In group B, the serum growth hormone level alteration before and on 60 minutes after insulin infusion was from 5.5+/-6.67ng/mL to 12.6+/-7.91ng/mL. The serum concentration of cortisol was changed from baseline level 10.7+/-7.10, 7.9+/-3.98microg/dL to 16.7+/-11.47, 26.1+/-3.59microg/ dL on 60 minutes after insulin infusion in group A and B respectively, but some cases in group A show a little increase in cortisol level. CONCLUSION: On the basis of this study, it is suggested that the deficiency of growth hormone secretion is related to cortisol concentration in peripheral blood. But for more detailed assessment of this association, follow up studies will be needed in more cases.
Blood Glucose
;
Child*
;
Growth Hormone*
;
Human Growth Hormone
;
Humans
;
Hydrocortisone*
;
Infusions, Intravenous
;
Insulin*
;
Levodopa
;
Radioimmunoassay