Ariel L. Barkan

Guidelines for acromegaly management: An update

OBJECTIVE The Acromegaly Consensus Group reconvened in November 2007 to update guidelines for acromegaly management. PARTICIPANTS The meeting participants comprised 68 pituitary specialists, including neurosurgeons and endocrinologists with extensive experience treating patients with acromegaly. EVIDENCE/CONSENSUS PROCESS: Goals of treatment and the appropriate imaging and biochemical and clinical monitoring of patients with acromegaly were enunciated, based on the available published evidence. CONCLUSIONS The group developed a consensus on the approach to managing acromegaly including appropriate roles for neurosurgery, medical therapy, and radiation therapy in the management of these patients.

Long-term treatment of acromegaly with pegvisomant, a growth hormone receptor antagonist

BACKGROUND Pegvisomant is a new growth hormone receptor antagonist that improves symptoms and normalises insulin-like growth factor-1 (IGF-1) in a high proportion of patients with acromegaly treated for up to 12 weeks. We assessed the effects of pegvisomant in 160 patients with acromegaly treated for an average of 425 days. METHODS Treatment efficacy was assessed by measuring changes in tumour volume by magnetic resonance imaging, and serum growth hormone and IGF-1 concentrations in 152 patients who received pegvisomant by daily subcutaneous injection for up to 18 months. The safety analysis included 160 patients some of whom received weekly injections and are excluded from the efficacy analysis. FINDINGS Mean serum IGF-1 concentrations fell by at least 50%: 467 mg/L (SE 24), 526 mg/L (29), and 523 mg/L (40) in patients treated for 6, 12 and 18 months, respectively (p<0.001), whereas growth hormone increased by 12.5 mg/L (2.1), 12.5 mg/L (3.0), and 14.2 mg/L (5.7) (p<0.001). Of the patients treated for 12 months or more, 87 of 90 (97%) achieved a normal serum IGF-1 concentration. In patients withdrawn from pegvisomant (n=45), serum growth hormone concentrations were 8.0 mg/L (2.5) at baseline, rose to 15.2 mg/L (2.4) on drug, and fell back within 30 days of withdrawal to 8.3 mg/L (2.7). Antibodies to growth hormone were detected in 27 (16.9%) of patients, but no tachyphylaxis was seen. Serum insulin and glucose concentrations were significantly decreased (p<0.05). Two patients experienced progressive growth of their pituitary tumours, and two other patients had increased alanine and asparate aminotransferase concentrations requiring withdrawal from treatment. Mean pituitary tumour volume in 131 patients followed for a mean of 11.46 months (0.70) decreased by 0.033 cm(3) (0.057; p=0.353). INTERPRETATION Pegvisomant is an effective medical treatment for acromegaly.

Octreotide Treatment of Acromegaly: A Randomized, Multicenter Study

OBJECTIVE To determine the effects of the somatostatin analog, octreotide acetate, in patients with acromegaly. DESIGN Double-blind, randomized trial. SETTING Fourteen university-affiliated medical centers. PATIENTS One hundred fifteen acromegalic patients, 70% of whom had persistent disease after pituitary surgery or radiotherapy. INTERVENTION Subcutaneous octreotide, 100 micrograms, or placebo every 8 hours for 4 weeks. Four weeks after the end of treatment, patients were randomized to receive 100 or 250 micrograms octreotide subcutaneously every 8 hours for 6 months. RESULTS After 2 weeks of treatment, a single 100-micrograms injection reduced mean serum growth hormone (GH) to 30% of the pretreatment concentration within 2 hours. The integrated mean GH level was reduced over 8 hours from 39 +/- 11 micrograms/L to 9 +/- 2 micrograms/L (P less than 0.001). Mean plasma insulin-like growth factor-1 (IGF-1) was reduced from 5100 +/- 400 U/L to 2400 +/- 400 U/L (P less than 0.001). After 6 months, the mean GH was reduced from 39 +/- 13 to 15 +/- 4 micrograms/L by 300 micrograms of octreotide and from 29 +/- 5 micrograms/L to 9 +/- 2 micrograms/L by 750 micrograms of octreotide daily. The mean IGF-1 concentration was suppressed to 2100 +/- 300 and 2500 +/- 400 U/L after 300 and 750 micrograms octreotide, respectively. Integrated mean GH levels were reduced to < 5 micrograms/L in 53% (95% CI, 39% to 67%) and 49% (CI, 35% to 63%), and IGF-1 levels were normal in 68% (CI, 54% to 82%) and 55% (CI, 40% to 70%) of patients receiving low- and high-dose octreotide, respectively. A substantial decrease in headache, amount of perspiration, joint pain, and finger circumference occurred in two thirds of the patients. The pituitary size was reduced in 19% (CI, 5% to 33%) and 37% (CI, 22% to 52%) of patients receiving 6 months of low- and high-dose octreotide, respectively. Ten percent and 13% of patients in each treatment group developed transient diarrhea; 10% and 14%, biliary sludge; and 6% and 18%, cholelithiasis, respectively. CONCLUSION Octreotide effectively decreased GH and IGF-1 concentrations in 53% and 68% of patients, respectively. The higher dose resulted in increased frequency of tumor shrinkage but added no biochemical or clinical benefit.

Regulatory mechanisms of growth hormone secretion are sexually dimorphic.

Sexually dimorphic growth hormone (GH) secretory pattern is important in the determination of gender-specific patterns of growth and metabolism in rats. Whether GH secretion in humans is also sexually dimorphic and the neuroendocrine mechanisms governing this potential difference are not fully established. We have compared pulsatile GH secretion profiles in young men and women in the baseline state and during a continuous intravenous infusion of recombinant human insulin-like growth factor I (rhIGF-I). During the baseline study, men had large nocturnal GH pulses and relatively small pulses during the rest of the day. In contrast, women had more continuous GH secretion and more frequent GH pulses that were of more uniform size. The infusion of rhIGF-I (10 microg/kg/h) potently suppressed both spontaneous and growth hormone-releasing hormone (GHRH)-induced GH secretion in men. In women, however, rhIGF-I had less effect on pulsatile GH secretion and did not suppress the GH response to GHRH. These data demonstrate the existence of sexual dimorphism in the regulatory mechanisms involved in GH secretion in humans. The persistence of GH responses to GHRH in women suggests that negative feedback by IGF-I might be expressed, in part, through suppression of hypothalamic GHRH.

The role of radiation therapy after surgical resection of nonfunctional pituitary macroadenomas.

OBJECTIVE:Radiotherapy after aggressive surgical resection of nonfunctional macroadenoma (NFA) of the pituitary remains controversial. Historically, immediate postoperative radiotherapy has been recommended to decrease risk of recurrence. With the availability of high-resolution imaging, most neurosurgeons now withhold radiation until recurrence. There is relatively little evidence to support this practice, however. This study reviews postoperative results in a large number of patients with NFA, the majority of whom did not undergo prophylactic radiation. METHODS:Of the 258 patients who underwent surgery from 1979 to 1999 for NFA, medical records were available for 176. Forty-four patients were treated with immediate postoperative radiotherapy after tumor resection, and the remaining 132 patients were followed up with serial imaging studies and treated with radiotherapy only when a recurrence was documented by follow-up imaging. RESULTS:Patients in the group that received immediate postoperative radiotherapy at time of initial diagnosis and surgery did not differ significantly with respect to age or sex from those in the group that was observed. Five- and 10-year recurrence rates were 2.3 and 2.3%, respectively, for patients who received immediate postoperative radiotherapy, as compared with 15.2 and 50.5%, respectively, for patients who were followed up and did not receive radiotherapy unless there was evidence of recurrence or progression. No patient had symptomatic recurrence in the group that was observed if consistent follow-up was performed. Of the 26 patients who received radiotherapy at time of tumor recurrence or progression, 18 had adequate follow-up, and in all cases, the tumors either remained stable or regressed. CONCLUSION:Withholding radiotherapy after a high-percentage resection of NFA leads to a higher recurrence rate, but it avoids exposing all patients to the risks of radiation. Deferring radiotherapy for patients with complete or near-complete resection seems to be a safe and prudent approach, as our data suggest that recurrences may be detected early with high-resolution imaging and treated effectively with radiation at time of recurrence. Therefore, immediate postoperative radiotherapy may be eliminated for patients with complete or near complete resection of NFA and who agree to undergo close follow-up for a long period.

Rapid Reduction of Left Ventricular Hypertrophy in Acromegaly after Suppression of Growth Hormone Hypersecretion

OBJECTIVE To examine the possible role of growth hormone as a pathogenetic factor in the development of myocardial hypertrophy in acromegaly. DESIGN An uncontrolled clinical trial. SETTING Tertiary-care medical center. PATIENTS Sixteen patients with acromegaly were stratified into two groups: Group I (n = 10) had left ventricular hypertrophy (LVH), and group II (n = 6) did not have LVH. INTERVENTION Therapy with octreotide acetate (SMS 201-995), a long-acting somatostatin analog (mean dose, 538 micrograms/d), was administered for 2 months. MEASUREMENTS Plasma growth hormone and insulin-like growth factor I (IGF-I) concentrations, hand volume, and echocardiographic left ventricular dimensions and mass were measured at baseline and at 1 week and 2 months after the start of therapy. RESULTS Before octreotide therapy, both groups had similar hand volumes and similar growth hormone and IGF-I hypersecretion. Both groups showed a reduction in growth hormone at 2 months (mean reduction, 13.7 micrograms/L in patients with LVH [P < 0.01] and 14.1 micrograms/L in patients without LVH [P < 0.05]). Plasma IGF-I was also decreased (mean reduction, 305 micrograms/L in patients with LVH [P < 0.01] and 304 micrograms/L in patients without LVH [P < 0.05]). Reduction of growth hormone and IGF-I hypersecretion in patients with LVH was associated with a rapid decrease in left ventricular mass (339 g to 299 g, P < 0.01) within 1 week, which was sustained at 2 months (274 g, P < 0.04). Patients without LVH showed no statistical change in left ventricular mass. In patients with LVH, the decrease in left ventricular mass correlated with the octreotide-induced decrease in growth hormone (r = 0.79, P less than 0.05) but not with blood pressure. Blood pressure, left ventricular dimensions, and percent of fractional shortening were not altered by therapy in either group. Hand volume decreased in both groups. CONCLUSIONS Normalization of growth hormone secretion is associated with reduction of left ventricular mass in acromegalic patients with LVH within 1 week of initiating therapy with octreotide.

Negative feedback regulation of pulsatile growth hormone secretion by insulin-like growth factor I. Involvement of hypothalamic somatostatin.

To investigate the mechanisms of the negative feedback inhibition of growth hormone (GH) secretion by IGF-I, we studied parameters of GH pulsatility in six normal, fed men before and during a 48-h infusion of recombinant human IGF-I (rhIGF-I) (10-15 micrograms/kg per h). Plasma levels of IGF-I increased from the baseline value of 163.5 +/- 9.3 micrograms/liter (mean +/- SE) to a new steady state of 452.0 +/- 20.9 micrograms/liter during the infusion. Plasma GH concentrations were measured every 10 min for 24 h during both saline and rhIGF-I infusions using a sensitive chemiluminescent assay. Overall, GH concentrations were suppressed during the rhIGF-I infusion by 85 +/- 3%, mainly by attenuating spontaneous GH pulse amplitude (77 +/- 4% suppression). The apparent GH pulse frequency was attenuated from 7.8 +/- 0.9 to 4.7 +/- 0.6 pulses/24 h (P = 0.006). Administration of rhIGF suppressed GH responses to exogenous GH-releasing hormone by 82 +/- 3%, and thyroid-stimulating hormone responses to thyrotropin-releasing hormone were also suppressed by 44 +/- 9%. This constellation of hormonal effects is most compatible with the rhIGF-I-induced stimulation of hypothalamic somatostatin secretion.

Suppression of growth hormone (GH) secretion by a selective GH-releasing hormone (GHRH) antagonist: Direct evidence for involvement of endogenous GHRH in the generation of GH pulses

To study the potential involvement of growth hormone-releasing hormone (GHRH) in the generation of growth hormone (GH) pulses in humans we have used a competitive antagonist to the GHRH receptor, (N-Ac-Tyr1,D-Arg2)GHRH(1-29)NH2(GHRH-Ant). Six healthy young men were given a bolus injection of GHRH-Ant 400 micrograms/kg body wt or vehicle at 2200 h and nocturnal GH concentrations were assessed by every 10-min blood sampling until 0800 h. Integrated total and pulsatile GH secretion were suppressed during GHRH-Ant treatment by 40 +/- 6 (SE) % and 75 +/- 5%, respectively. GHRH-Ant suppressed maximum (7.6 +/- 2.2 vs 1.8 +/- 0.5 micrograms/liter; P < 0.001) and mean (3.3 +/- 1.0 vs 1.1 +/- 0.2 micrograms/liter; P = 0.02) GH pulse amplitudes. There was no change in integrated nonpulsatile GH levels, pulse frequency, or interpulse GH concentration. GHRH-Ant 400 micrograms/kg also suppressed the GH responses to intravenous boluses of GHRH 0.33 micrograms/kg given 1, 6, 12, and 24 h later by 95, 81, 59, and 4%, respectively. In five healthy men, the responses to 10-fold larger GHRH boluses (3.3 micrograms/kg) were suppressed by 82 and 0%, 1 and 6 h after GHRH-Ant 400 micrograms/kg, respectively. These studies provide the first direct evidence that endogenous GHRH participates in the generation of spontaneous GH pulses in humans.

Endogenous growth hormone (GH)-releasing hormone is required for GH responses to pharmacological stimuli.

The roles of hypothalamic growth hormone-releasing hormone (GHRH) and of somatostatin (SRIF) in pharmacologically stimulated growth hormone (GH) secretion in humans are unclear. GH responses could result either from GHRH release or from acute decline in SRIF secretion. To assess directly the role of endogenous GHRH in human GH secretion, we have used a competitive GHRH antagonist, (N-Ac-Tyr1,D-Arg2)GHRH(1-29)NH2 (GHRH-Ant), which we have previously shown is able to block the GH response to GHRH. We first tested whether an acute decline in SRIF, independent of GHRH action, would release GH. Pretreatment with GHRH-Ant abolished the GH response to exogenous GHRH (0.33 microgram/kg i.v.) but did not modify the GH rise after termination of an SRIF infusion. We then investigated the role of endogenous GHRH in the GH responses to pharmacologic stimuli of GH release. The GH responses to arginine (30 g i.v. over 30 min), L-dopa (0.5 g orally), insulin hypoglycemia (0.1 U/Kg i.v.), clonidine (0.25 mg orally), or pyridostigmine (60 mg orally) were measured in healthy young men after pretreatment with either saline of GHRH-Ant 400 microgram/kg i.v. In every case, GH release was significantly suppressed by GHRH-Ant. We conclude that endogenous GHRH is required for the GH response to each of these pharmacologic stimuli. Acute release of hypothalamic GHRH may be a common mechanism by which these compounds mediate GH secretion.

Guidelines for the treatment of growth hormone excess and growth hormone deficiency in adults

The V Consensus Group Meeting on ‘Guidelines for Treatment of GH Excess and GH Deficiency in the Adult’ was an international workshop held on February 20–22, 2006 in Santa Monica, California, USA. The principal aim of this meeting was to provide guidelines for the evaluation and treatment of adults with either form of abnormal GH secretion: GH excess or GH deficiency. The workshop included debates as to the choice of primary treatment, discussions of the targets for adequate treatment, and concluded with presentations on open issues germane to adult GH treatment including the role of GH in malignancies, the impact of longterm treatment on bone, and a cost-benefit analysis. The meeting was comprised of 66 delegates representing 13 different countries.