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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT00461149
Other study ID # NeuroendoUnit-1
Secondary ID
Status Completed
Phase Phase 4
First received April 13, 2007
Last updated April 13, 2007
Start date January 1995
Est. completion date December 2006

Study information

Verified date April 2007
Source Federico II University
Contact n/a
Is FDA regulated No
Health authority Italy: National Monitoring Centre for Clinical Trials - Ministry of HealthItaly: The Italian Medicines Agency
Study type Interventional

Clinical Trial Summary

Epidemiological data indicate that patients with active acromegaly have reduced life expectancy because of cardiovascular (60%) and respiratory diseases (25%) mainly (1-10). A post-treatment GH value <5 mU/liter (equal to <2.5 μg/liter) and IGF-I in the normal range for age are recognized as the most predictive survival indices.

Since their introduction into clinical use approximately two decades ago, somatostatin analogs have been considered a cornerstone of medical therapy for acromegaly. After 12 months of treatment with octreotide-LAR, control of GH and IGF-I excess, is achieved in 54% and 63% of unselected patients (11). The proportion of subjects achieving IGF-I normalization increases significantly with time (12). Significant tumor shrinkage has also been reported in a number of studies (13,14): an average 50% tumor decrease is achieved when the drug is used exclusively, or before surgery or radiotherapy (14). In 99 unselected newly diagnosed patients after 12 months of treatment with somatostatin analogues we reported control of GH levels in 57.6% and IGF-I levels in 45.5% and a greater than 50% tumor shrinkage in 44.4% (15).

The dose of LAR in different studies ranged from 10-40 mg every 28 days (q28d): high doses are generally administered in patients who do not control GH and IGF-I excess with lower doses. As reported in the meta-analysis (11) the rate of IGF-I normalization tended to be lower as octreotide-LAR dose was raised: 90% in patients treated with 10 mg, 61% with 20 mg and 53% with 30 mg. However, some further benefit by increasing the dose of octreotide-LAR was reported in some studies (16-18).

Data on dose escalation of octreotide-LAR given as first-line therapy in newly diagnosed patients with acromegaly are lacking.


Description:

This is an analytical, interventional, 24-month, open, prospective study to investigate the effect of progressive increase of octreotide-LAR doses in newly diagnosed patients with acromegaly. Primary outcome measures were GH and IGF-I control and tumor shrinkage; secondary outcome measure was glucose tolerance.

At diagnosis and every six months, 24-48 hours before changes in treatment doses was applied, were measured:

1. Serum IGF-I levels twice in a single sample at the time 0 of the GH profile; GH levels calculated as the mean value of 3-6 samples drawn every 30 min; the average value was considered for the statistical analysis;

2. Tumor volume on MRI studies performed on clinical 1T and 1.5T scanners, using T1 weighted gradient recalled-echo in the sagittal and coronal planes, as already reported (15,21,22). The acquisitions were repeated before and after the administration of 0.1 mmoles of gadolinium chelate (diethylene-triamine pentacetate). In all patients MRI was performed at diagnosis and after 6, 12, and 24 months of treatment. The maximal sagittal, axial and coronal diameters were measured, then tumor volume was calculated by the De Chiro and Nelson formula [(volume= sagittal*coronal*axial diameters)*π/6]. According with previous studies (13,21) on post-treatment MRI, tumor shrinkage was assessed as percent decrease of tumor volume compared with baseline.

3. Glucose tolerance by assaying glucose and insulin levels at fasting. Only at diagnosis glucose and insulin were also measured every 30 minutes for 2 hours after the oral administration of 75 g of glucose diluted in 250 ml of saline solution. In four patients the glucose load was not performed because of overt diabetes (fasting glucose was above 7 mmol/L at two consecutive measurements) (25). Diabetes mellitus was diagnosed in another eight patients when 2 hours after the oGTT glucose was >11 mmol/L (25). Impaired glucose tolerance (IGT) when glucose level was between >7.8 mmol/L and <11 mmol/L 2 hours after the oGTT and/or impaired fasting glucose (IFG) when glucose level was between 5.6 and 6.9 mmol/L at fasting were diagnosed in 20 patients (25). Glucose tolerance was normal (below 5.6 mmol/L at fasting) in 24 patients. To predict insulin resistance [HOMA-R (%)] and ß-cell function [HOMA-β (%)] was used the HOMA (homeostatic model assessment) according with Matthews et al. (24). By assuming that normal-weight healthy subjects aged <35 years have a HOMA-β of 100% and a HOMA-R of 1, the values for individual patients can be assessed from the insulin and glucose concentrations by the formulae: HOMA-R = [insulin (mU/L)*fasting glucose (mmol/L)] / 22.5; HOMA-β (%) = [20*insulin (mU/L)] / [glucose (mmol/L)-3.5].

Treatment protocol Before starting therapy, all patients received an acute test with s.c. octreotide at a dose of 0.1 mg in the morning after an overnight fast and at least 2 hrs of bedrest, to investigate each patient’s tolerability to somatostatin analogues (25). Then, all patients were treated with octreotide-LAR i.m. at an initial dose of 20 mg every 28 days for three months. Subsequently, LAR treatment was maintained at the same dose in patients achieving GH levels ≤2.5 μg/liter and IGF-I levels in the normal range (Group A), or increased up to 30 mg every 28 days in patients with GH levels >2.5 μg/liter and/or IGF-I levels above the normal range. After another 9 months of treatment with 30 mg/q28d, the dose was maintained in 15 patients achieving GH levels ≤2.5 μg/liter and IGF-I levels in the normal range (Group B) while it was further increased to 40 mg/q28 days if fasting GH levels were still >2.5 μg/liter and/or IGF-I levels were above the normal range (Group C).


Recruitment information / eligibility

Status Completed
Enrollment 50
Est. completion date December 2006
Est. primary completion date
Accepts healthy volunteers No
Gender Both
Age group 18 Years and older
Eligibility Inclusion Criteria:

- patients with newly diagnosed acromegaly

- age above 18 years

- no previous treatments for acromegaly

Exclusion Criteria:

- primary surgery

- concomitant hyperprolactinemia if requiring combined treatment with dopamine-agonist

- primary treatment with lanreotide

- treatment duration less than 24 months

Study Design

Allocation: Non-Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment


Related Conditions & MeSH terms


Intervention

Drug:
Octreotide-LAR


Locations

Country Name City State
Italy Department of Molecular and Clinical Endocrinology and Oncology University Federico II of Naples Naples

Sponsors (1)

Lead Sponsor Collaborator
Federico II University

Country where clinical trial is conducted

Italy, 

References & Publications (24)

Abosch A, Tyrrell JB, Lamborn KR, Hannegan LT, Applebury CB, Wilson CB. Transsphenoidal microsurgery for growth hormone-secreting pituitary adenomas: initial outcome and long-term results. J Clin Endocrinol Metab. 1998 Oct;83(10):3411-8. — View Citation

American Diabetes Association. Diagnosis and classification of diabetes mellitus. Diabetes Care. 2006 Jan;29 Suppl 1:S43-8. — View Citation

Ayuk J, Clayton RN, Holder G, Sheppard MC, Stewart PM, Bates AS. Growth hormone and pituitary radiotherapy, but not serum insulin-like growth factor-I concentrations, predict excess mortality in patients with acromegaly. J Clin Endocrinol Metab. 2004 Apr; — View Citation

Bates AS, Van't Hoff W, Jones JM, Clayton RN. An audit of outcome of treatment in acromegaly. Q J Med. 1993 May;86(5):293-9. — View Citation

Bevan JS. Clinical review: The antitumoral effects of somatostatin analog therapy in acromegaly. J Clin Endocrinol Metab. 2005 Mar;90(3):1856-63. Epub 2004 Dec 21. Review. — View Citation

Colao A, Ferone D, Marzullo P, Cappabianca P, Cirillo S, Boerlin V, Lancranjan I, Lombardi G. Long-term effects of depot long-acting somatostatin analog octreotide on hormone levels and tumor mass in acromegaly. J Clin Endocrinol Metab. 2001 Jun;86(6):277 — View Citation

Colao A, Lombardi G. Growth-hormone and prolactin excess. Lancet. 1998 Oct 31;352(9138):1455-61. Review. — View Citation

Colao A, Marzullo P, Ferone D, Spinelli L, Cuocolo A, Bonaduce D, Salvatore M, Boerlin V, Lancranjan I, Lombardi G. Cardiovascular effects of depot long-acting somatostatin analog Sandostatin LAR in acromegaly. J Clin Endocrinol Metab. 2000 Sep;85(9):3132 — View Citation

Colao A, Pivonello R, Auriemma RS, Briganti F, Galdiero M, Tortora F, Caranci F, Cirillo S, Lombardi G. Predictors of tumor shrinkage after primary therapy with somatostatin analogs in acromegaly: a prospective study in 99 patients. J Clin Endocrinol Meta — View Citation

Colao A, Pivonello R, Rosato F, Tita P, De Menis E, Barreca A, Ferrara R, Mainini F, Arosio M, Lombardi G. First-line octreotide-LAR therapy induces tumour shrinkage and controls hormone excess in patients with acromegaly: results from an open, prospectiv — View Citation

Cozzi R, Attanasio R, Montini M, Pagani G, Lasio G, Lodrini S, Barausse M, Albizzi M, Dallabonzana D, Pedroncelli AM. Four-year treatment with octreotide-long-acting repeatable in 110 acromegalic patients: predictive value of short-term results? J Clin En — View Citation

Cozzi R, Montini M, Attanasio R, Albizzi M, Lasio G, Lodrini S, Doneda P, Cortesi L, Pagani G. Primary treatment of acromegaly with octreotide LAR: a long-term (up to nine years) prospective study of its efficacy in the control of disease activity and tum — View Citation

Etxabe J, Gaztambide S, Latorre P, Vazquez JA. Acromegaly: an epidemiological study. J Endocrinol Invest. 1993 Mar;16(3):181-7. — View Citation

Freda PU, Katznelson L, van der Lely AJ, Reyes CM, Zhao S, Rabinowitz D. Long-acting somatostatin analog therapy of acromegaly: a meta-analysis. J Clin Endocrinol Metab. 2005 Aug;90(8):4465-73. Epub 2005 May 10. — View Citation

Giustina A, Barkan A, Casanueva FF, Cavagnini F, Frohman L, Ho K, Veldhuis J, Wass J, Von Werder K, Melmed S. Criteria for cure of acromegaly: a consensus statement. J Clin Endocrinol Metab. 2000 Feb;85(2):526-9. Review. — View Citation

Holdaway IM, Rajasoorya RC, Gamble GD. Factors influencing mortality in acromegaly. J Clin Endocrinol Metab. 2004 Feb;89(2):667-74. — View Citation

Kauppinen-Mäkelin R, Sane T, Reunanen A, Välimäki MJ, Niskanen L, Markkanen H, Löyttyniemi E, Ebeling T, Jaatinen P, Laine H, Nuutila P, Salmela P, Salmi J, Stenman UH, Viikari J, Voutilainen E. A nationwide survey of mortality in acromegaly. J Clin Endoc — View Citation

Matthews DR, Hosker JP, Rudenski AS, Naylor BA, Treacher DF, Turner RC. Homeostasis model assessment: insulin resistance and beta-cell function from fasting plasma glucose and insulin concentrations in man. Diabetologia. 1985 Jul;28(7):412-9. — View Citation

Melmed S, Sternberg R, Cook D, Klibanski A, Chanson P, Bonert V, Vance ML, Rhew D, Kleinberg D, Barkan A. A critical analysis of pituitary tumor shrinkage during primary medical therapy in acromegaly. J Clin Endocrinol Metab. 2005 Jul;90(7):4405-10. Epub — View Citation

Orme SM, McNally RJ, Cartwright RA, Belchetz PE. Mortality and cancer incidence in acromegaly: a retrospective cohort study. United Kingdom Acromegaly Study Group. J Clin Endocrinol Metab. 1998 Aug;83(8):2730-4. — View Citation

Rajasoorya C, Holdaway IM, Wrightson P, Scott DJ, Ibbertson HK. Determinants of clinical outcome and survival in acromegaly. Clin Endocrinol (Oxf). 1994 Jul;41(1):95-102. — View Citation

Swearingen B, Barker FG 2nd, Katznelson L, Biller BM, Grinspoon S, Klibanski A, Moayeri N, Black PM, Zervas NT. Long-term mortality after transsphenoidal surgery and adjunctive therapy for acromegaly. J Clin Endocrinol Metab. 1998 Oct;83(10):3419-26. — View Citation

Turner HE, Vadivale A, Keenan J, Wass JA. A comparison of lanreotide and octreotide LAR for treatment of acromegaly. Clin Endocrinol (Oxf). 1999 Sep;51(3):275-80. — View Citation

Wright AD, Hill DM, Lowy C, Fraser TR. Mortality in acromegaly. Q J Med. 1970 Jan;39(153):1-16. — View Citation

* Note: There are 24 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary GH and IGF-I control
Primary tumor shrinkage
Secondary Glucose tolerance.
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