Diagnostic advances have resulted in earlier and more frequent recognition of pituitary tumors. Pituitary tumors cause problems owing to the hormones they secrete or the effects of an expanding sellar mass--hypopituitarism, visual field abnormalities, and neurologic deficits. Prolactin-secreting tumors (prolactinomas), which cause amenorrhea, galactorrhea, and hypogonadism, constitute the most common type of primary pituitary tumors, followed by growth hormone-secreting tumors, which cause acromegaly, and corticotropin-secreting tumors, which cause Cushing's syndrome. Hypersecretion of thyroid-stimulating hormone, the gonadotrophins, or alpha-subunits is unusual. Nonfunctional tumors currently represent only 10% of all clinically diagnosed pituitary adenomas, and some of these are alpha-subunit-secreting adenomas. Insights into the pathogenesis and biologic behavior of these usually benign tumors have been gained from genetic studies. We review some of the recent advances and salient features of the diagnosis and management of pituitary tumors, including biochemical and radiologic diagnosis, transsphenoidal surgery, radiation therapy, and medical therapy. Each type of lesion requires a comprehensive but individualized treatment approach, and regardless of the mode of therapy, careful follow-up is essential.

Hypocycloidal tomography of the sella turcica is being used with increasing frequency in patients with galactorrhea in order to establish the diagnosis of pituitary adenoma. In 201 patients with galactorrhea, serum prolactin (PRL) levels were correlated with anteroposterior (AP)--lateral plain radiographs and hypocycloidal tomography of the sella turcica. Plain films were normal in 167 and abnormal in 34 patients. Of the 167 patients with normal AP-lateral plain films, 80 had normal tomograms and normal serum prolactin levels while 80 patients had normal tomograms and elevated serum PRL levels (21 to 256 ng/ml). The remaining seven of the 167 patients had normal plain films with abnormal tomograms and elevated serum PRL levels (28 to 176 ng/ml). All patients with abnormal plain radiographs had abnormal tomograms and had either elevated or normal serum PRL levels. In view of these findings, sella tomography is only necessary in patients with normal plain radiographs and elevated serum PRL levels.

Ovarian follicle development was investigated in 38 normally cycling women who received clomiphene citrate, 150 mg per day for 5 days, to maximize follicular development. Ultrasonic determination of follicle growth was performed on a daily basis with a real-time sector scanner and correlated with daily concentrations of estradiol (E2) in the peripheral serum as measured by rapid radioimmunoassay. Human Chorionic gonadotropin was given to induce ovulation, and the day of injection was considered day 0. Mean concentrations of E2 reached a maximum of 1,150 +/- 65 pg/ml on day 0. Mean diameter of the dominant follicle increased to 22.1 +/- 0.4 on day 0. When peripheral concentrations of E2 were correlated with diameter and total follicular volume it was found that plasma E2 levels varied, depending on the number of follicles seen on ultrasound examination, with a mean E2 value of 459 +/- 18.9 pg/ml per follicle per day. Multiple growth of follicles occur with artificial induction of ovulation; therefore, the use of ultrasound is an important parameter to assess follicular maturation and the timing of ovulation more precisely.

The present study was undertaken to determine if more than one dose of GnRh is necessary to induce luteinizing hormone (LH) and follicle-stimulating hormone (FSH) secretion that is sufficient to cause a significant increase in circulating estradiol (E2) levels. Thirty-four women were studied. Of these, eight control women were studied in the early follicular phase (baseline E2, 48 +/- 4.5 pg/ml); eight patients had secondary amenorrhea caused by hypothalamic dysfunction (baseline E2, 52.0 +/- pg/ml), seven had secondary amenorrhea caused by hypothalamic pituitary failure (baseline E2, 21 +/- 2.5 pg/ml), and 11 women had amenorrhea, galactorrhea, and hyperprolactinemia (baseline E2, 16.5 +/- 3 pg/ml and baseline prolactin, 443 +/- 98 ng/ml). An initial intravenous bolus of 150 microgram of gonadotropin-releasing hormone was followed 2 hours later by a smaller dose of 50 microgram. Thirty minutes following the first and second doses of GnRH, plasma LH and FSH increased significantly in all subjects. The initial increase of LH and FSH did not result in an increase in the plasmma E2 levels in any of the subjects. However, following the second gonadotropin peak, a significant increase in plasma E2 values was observed at 4 hours in all subjects (P less than 0.01). It can be concluded that (1) GnRH can be used to induce ovarian stimulation in normal women as well as in amenorrheic patients with low or normal baseline E2 levels as long as a sequential increase in LH and FSH can be elicited and (2) hyperprolactinemia does not interfere with ovarian E2 synthesis.

The nature of secretion of gonadotropin during pregnancy and the puerperium was determined by measuring plasma levels of beta-subunit luteinizing hormone (GnRH) during the first, second, third trimesters of pregnancy, and at 10 days post partum in lactating and nonlactating women. The nonlactating subjects were divided into two groups according to whether hormonal suppression of lactation was used. Baseline and response levels of beta-LH and FSH after GnRH were below the limits of assay sensitivity (less than 0.5 ng/ml and less than 1.5 mlU/ml, respectively) in all pregnant subjects. In contrast, postpartum lactating and nonlactating subjects who received no hormonal treatment for suppression of lactation had a small but significant increase in FSH after GnRH. In lactating women, FSH increased from 1.5 +/- 0.3 mlU/ml to 2.7 +/- 0.3 mlU/ml (p less than 0.05); and in nonlactating subjects, FSH increased from undetectable levels to 2.0 +/- 0.4 mlU/ml (p less than 0.001). Patients who received estrogenic compounds for suppression of lactation had undetectable FSH baselines and no response after GnRH. beta-LH in both lactating and nonlactating women had a variable but not a significant response to one administration of GnRH. In conclusion, our findings indicate that the functional capacity of the gonadotrophs recovered earlier (at 10 days) than previously reported (less than 14 days) after term pregnancy, and the recovery of FSH secretion occurs earlier and is more consistent than the recovery of beta-LH.

The relationship between estradiol- and progesterone-mediated gonadotropin release and steroid-induced changes in prolactin levels was investigated in an improved human experimental model. Three women who had undergone bilateral ovariectomy were studied after they had received a subcutaneous implant of one 25-mg estradiol (E2) pellet. Serum E2 levels remained between 60 and 125 pg/ml, and serum luteinizing hormone (LH) and follicle-stimulating hormone (FSH) concentrations were within the normal or slightly elevated range. Serum prolactin (PRL) levels were normal. Each woman received intramuscular injections of gradually increasing doses of estradiol benzoate (E2B) alone and in combination with progesterone (P) in 7 different experiments. An E2B-induced rise in E2 levels comparable to that observed at midcycle elicited a clearly defined LH surge but no change in FSH and PRL. Rising E2 concentrations followed by increasing P levels caused LH and FSH release but no change in PRL. When only P was administered or when serum P levels rose concomitantly with E2 levels, PRL and gonadotropin levels remained unchanged. These data indicate that a surge of E2 similar to that observed at midcycle triggers an acute release of LH only. Moreover, P levels commensurate with those found at mid-cycle facilitate an E2-mediated LH release and induce a concomitant peak in FSH. The lack of a significant increase in PRL levels suggests that different mechanisms are responsible for the pituitary release of PRL and gonadotropins.

Sixty-two patients with primary amenorrhea were retrospectively categorized into 4 groups: 1) breast development absent and uterus present (29 patients), 2) breast development present and uterus absent (9 patients), 3) both breast development and uterus absent (2 patients), and 4) both breast development and uterus present (22 patients). Patients in category 1 were diagnosed as having hypogonadotropic hypogonadism (low or normal follicle-stimulating hormone [FSH]) or gonadal dysgenesis (elevated FSH). Patients in category 2 were diagnosed as having congenital absence of the uterus (female range testosterone [T] or testicular feminization [male range T]). In the 2 patients in category 3, a 46,XY karyotype occurred with an enzyme defect (17,20 desmolase) in 1 and the other had agonadism. In category 4, 5 patients with elevated prolactin and a pituitary adenoma were identified. The remaining 17 patients were divided into 2 groups based on progesterone withdrawal bleeding. Patients who had withdrawal bleeding and had elevated luteinizing hormone level were diagnosed as having polycystic ovaries and patients with normal gonadotropins as having hypothalamic dysfunction. Patients who did not bleed were diagnosed as having hypothalamic failure (normal or low FSH) or primary ovarian failure (elevated FSH). This study demonstrates that it is possible to classify patients with primary amenorrhea into 4 useful diagnostic categories based on physical examination and a minimal laboratory investigation.

To further elucidate the mechanism of return of pituitary secretory function after gestation, eight women were studied for up to 55 days after pregnancy termination. As long as serum estradiol (E2) and progesterone (P) levels were elevated, serum FSH remained low. Four to 6 days after abortion, serum E2 and P decreased to levels seen in the early follicular phase, and thereafter the initial increase in FSH occurred while serum beta-LH remained undetectable. After the initiation of FSH secretion, the levels fluctuated within the normal follicular phase range, resulting in a steady increase of E2 to a mean preovulatory peak of 257 +/- 37 pg/ml at a mean time of 21 +/- 1.3 days after pregnancy termination. This E2 peak was followed by FSH and LH peaks and subsequent ovulation. In contrast to FSH, serum beta-LH levels increased only after PRL-concentrations diminished to 30 ng/ml or less. This initiation of beta-LH secretion followed the advent of FSH secretion in six of eight patients. Therefore, a temporally separate mechanism of FSH and LH secretion after pregnancy termination is theorized. The theory of FSH occurs soon after the E2 and P levels decline while PRL levels are still elevated. However, the secretion of beta-LH increases only after levels have risen from the postabortion decline.

Twenty infertile, anovulatory women were treated with human menopausal gonadotropin (hMG) for a total of 61 treatment cycles. Cervical scores (all cycles) and vaginal maturation indices (23 cycles) were compared with serum concentrations of total immunoreactive estrogens to determine their clinical efficacy in monitoring hMG treatment. All courses of therapy were judged to have induced ovulation. Singleton pregnancies occurred in nine patients, and one patient conceived twice. All pregnancies were uncomplicated. There was good clinical correlation between cervical score and increasing estrogen levels in approximately one-third of the cycles. Most of these good correlations occurred in patients with low estrogen status. Very poor correlation was found with vaginal cytologic changes. Therefore, in conjunction with serum estrogen determinations, the cervical score is a safe and less expensive means of monitoring hMG therapy in selected patients.

Prolactin (PRL) synthesis and its release following thyrotropin-releasing hormone (TRH) administration during pregnancy and puerperium was studied in 45 women. Mean baseline E2 increased from 1,900 +/- 384 (SEM) pg/ml in the first trimester to 3,520 +/- 849 in the second trimester (P less than 0.05) and 43,057 +/- 5,765 pg/ml in the third trimester (P less than 0.001) of pregnancy. Mean baseline progesterone increased from 27.6 +/- 3.2 ng/ml in the first trimester to 41.9 +/- 6.6 in the second trimester (P less than 0.01) and 109.3 +/- 11.2 ng/ml in the third trimester (P less than 0.001) of pregnancy. Ten days after delivery, mean E2 dropped to 13 +/- 2.9 pg/ml and progesterone dropped to 0.56 +/- 0.07 ng/ml in the lactating women; in the nonlactating women, mean E2 level was 100 +/- 44 pg/ml and mean progesterone was 0.63 +/- 0.09 ng/ml. Baseline PRL increased from 27 +/- 15 ng/ml in the third trimester (P less than 0.002). The increased synthesis of PRL with increasing gestation was thought to be due to the stimulatory effects of E2 and progesterone, resulting in hyperplasia of the lactotrophs. In response to TRH, PRL demonstrated a significant increase from the first trimester to the second, with no further increase in the third. Therefore, it appears that the PRL reserve increases only during the first and second trimesters of pregnancy. Ten days after delivery, baseline PRL in response to TRH decreased to levels found in the first and second trimesters. However, the lactating women released less PRL than the nonlactating subjects (P less than 0.01), since PRL is released with each lactating episode which in turn probably reduces the PRL reserve.

Forty women with hyperprolactinemia with and without radiologic evidence of prolactin-secreting pituitary adenoma were prospectively treated with bromocriptine. On the basis of tomographic studies, the patients were divided into either a microadenoma group (N = 19) or no adenoma group (N = 21). Both groups had similar distributions as to obstetric history, menstrual abnormalities, levels of baseline serum luteinizing hormone, follicle-stimulating hormone, and thyrotropin. Patients in the adenoma group had significantly higher (p less than 0.001) baseline serum prolactin levels (173 +/- 4.4 ng/ml) than those of patients without adenoma (61.1 +/- 4.5 ng/ml). Patients without an adenoma required significantly less bromocriptine (5 to 7.5 mg)(p less than 0.005) to normalize serum prolactin or establish a pregnancy than did those who had an adenoma (5 to 20 mg). Similarly, patients with adenoma resumed ovulatory cycles (8.7 +/- 1.2 versus 5.7 +/- 0.06 weeks), had their galactorrhea disappear (11.3 +/- 2.1 versus 5.6 +/- 1.1 weeks), and become pregnant (16.2 +/- 2.5 versus 9.8 +/- 1.5 weeks) in a significantly longer time (p less than 0.01) than did those who had no adenomas. There was no significant difference in the pregnancy rate between the groups, and the overall rate was 86% of 28 patients desiring pregnancy. No complications were observed during pregnancy. The conclusion is that both patients with and those without radiologic evidence of a prolactin-secreting pituitary adenoma can be safely treated with bromocriptine. In addition, the resumption of ovulatory cycles is more important than the absolute normalization of serum prolactin.

Clinically nonfunctioning adenomas (CNFAs) range from being completely asymptomatic, and therefore detected at autopsy or as incidental findings on head MRI or CT scans performed for other reasons, to causing significant hypothalamic/pituitary dysfunction and visual field compromise because of their large size. Patients with incidental adenomas should be screened for hypersecretion and hyposecretion. In the absence of hypersecretion, hypopituitarism, or visual field defects, patients may be followed by periodic screening by MRI for enlargement. Symptomatic patients with CNFAs are generally treated by transsphenoidal resection. Postoperative MRI scans are done at 3 to 4 months after surgery to assess for completeness of resection and then repeated yearly for 3 to 5 years and subsequently less frequently to assess for regrowth. The regrowth rate may be substantially reduced with the use of dopamine agonists and radiotherapy.

Eight patients with amenorrhea, galactorrhea, and hyperprolactinemia underwent excision of pituitary adenomas by means of a microsurgical procedure that used a transsphenoidal approach. Prolactin values returned to normal in five of the patients and were significantly lower in three. Five patients resumed their menses. Two became pregnant. All eight patients had used oral contraceptives. The association of oral contraceptives and prolactin-producing pituitary adenomas is discussed.

Galactorrhoea is a complication rarely observed after mammary plastic surgery. Our experience in the domain extends to three clinical cases - two after prosthetic insertion and one after breast reduction - wich will be presented here. The origin of this complication is uncertain. Nevertheless, it is likely to be multifocal, as surgery alone is not the only cause. Postsurgical galactorrhoea often follows a benign course culminating in spontaneous resolution. However, it may reveal the presence of o prolactin secreting adenoma, as was the case with one of our patients. A detailed history, exploring antecedent factors, is an essential step in guiding subsequent management. When faced with postsurgical galactorrhoea, serum prolactin levels should be measured. If serum prolactin levels exceed 150 ng/ml further investigation by way of an MRI of the sella turcica is advisable to rule out pituitary adenoma. Depending on symptom severity, treatment may be medical with the prescription of dopaminergic agonists, and/or surgical with drainage or removal of prostheses. Increased awareness of galactorrhea as a possible complication of plastic surgery to the breast will improve management.

OBJECTIVE: The development of computed tomography (CT) and magnetic resonance imaging (MRI) has resulted in the discovery of unsuspected endocrinologically silent pituitary masses (pituitary incidentalomas). The aim of this study was to perform a national survey on pituitary incidentalomas in order to establish an appropriate approach to them. DESIGN AND METHODS: Five hundred and six patients with pituitary incidentalomas were obtained by questionnaire from March 1999 to May 2000 under the auspices of the Ministry of Health, Labor and Welfare in Japan. Two hundred and fifty-eight patients underwent surgery (surgical group), while 248 patients were followed up conservatively for a mean period of 26.9 Months (range 6-173 Months)(non-surgical group). Clinical and biochemical assessment, CT or MRI of the pituitary, and visual field testing by Goldman perimetry were assessed at baseline and 6 Months and Yearly thereafter. RESULTS: Thirty-three patients with pituitary incidentalomas (13.3%) developed tumor enlargement during the mean follow-up period of 45.5 Months. Of 115 estimated non-functioning adenomas, 23 tumors (20.0%) increased during a mean follow-up period of 50.7 Months (range 10-173 Months), while 5 of 94 (5.3%) estimated Rathke's cysts increased in size during follow-up. Pituitary apoplexy occurred in one of 248 patients (0.4%). CONCLUSIONS: Pituitary incidentalomas usually follow a benign course. We recommend transsphenoidal adenectomy for a solid mass attached to the optic chiasma estimated to be a pituitary adenoma by MRI. Other patients should be followed up by MRI every 6 Months for the first 2 Years, and then Yearly.

OBJECTIVE: In recent years, gamma knife radiosurgery (GKRS) has emerged as an important treatment modality in the management of pituitary adenomas. Treatment results after performing GKRS and the complications of this procedure are reviewed. METHODS: Between 1994 and 2002, a total of 78 patients with pituitary adenomas underwent a total of 84 GKRS procedures in our medical center. This patient group comprised 46 men (59%) and 32 women (41%). All patients were treated for recurrent or residual disease after surgery or radiotherapy, with 83% presenting with extensive tumor involvement. The cavernous sinus was involved in 75 patients (96%), and 22 patients (28%) had hormone-secreting adenomas. This latter subset of patients included 12 prolactinomas (15%), 6 growth-hormone secreting tumors (8%), and 4 adrenocorticotropic hormone-secreting tumors (5%). The median tumor volume was 2.3 cm(3), and the median radiation dose was 15 Gy defined to the 50% isodose line. The mean and median follow-up periods were 41 and 36 months, respectively. RESULTS: GKRS was tolerated well in these patients; acute toxicity was uncommon and of no clinical significance. Late toxicity was noted in three patients (4%) and consisted of VIth cranial nerve palsy. In two patients, there was spontaneous resolution of this palsy, and in one patient, it persisted for the entire 3-year duration of follow-up. Of the 15 patients who presented with cranial nerve dysfunction, 8 (53%) experienced complete recovery and 3 (20%) showed major improvement within 12 months of therapy. Tumor volume reduction was slow, with 30% of patients showing decreased tumor volume more than 3 years after undergoing GKRS. None of the 56 patients with nonfunctioning tumors showed progression in the treated volume, and 4 (18%) of the 22 hormone-secreting tumors relapsed (P = 0.008). Of the four patients with adrenocorticotropic hormone-secreting adenomas, therapy failed in two of them. All six patients with growth hormone-producing tumors responded well to therapy. Of the 12 patients with prolactinomas 10 (83%) had normalization of hormone level and 2 patients experienced increasing prolactin level. Two patients with prolactinomas had three normal pregnancies after undergoing GKRS. CONCLUSION: GKRS is a safe and effective therapy in selected patients with pituitary adenomas. None of the patients in our study experienced injury to the optic apparatus. A radiation dose higher than 15 Gy is probably needed to improve control of hormone-secreting adenomas. Longer follow-up is required for a more complete assessment of late toxicity and treatment efficacy.

OBJECTIVE: To report the experience with the perioperative management of endoscopic intrasellar tumor surgery in fifty-two patients with intrasellar tumor who underwent an endoscopic transsphenoidal approach to the sella. METHODS: The application of transnasal endoscopic technique to the management of pituitary adenomas in 49 patients, of craniopharyngioma in two patients and of meningeoma in one patient. RESULTS: Forty-eight of forty-nine cases with pituitary adenomas and two cases with craniopharyngioma were removed completely, the majority of one case with invasive pituitary adenoma and the meningeoma were removed on purpose to decompress. The symptoms of headache, visual desturbance, amenorrhea, galactorrhea ect. were cured or improved. The endocrinological evaluation: the high preoperative prolactin (PRL) and growth hormone (GH) level were decreased to normal values after the operation. Transient and permanent diabetes insipidus occurred in five patients and one patient with pituitary adenomas respectively after the operation, only one case required the treatment. One patient with craniopharyngioma had postoperative epilypsy. Two patients with pituitary adenomas and one patient with craniopharyngioma had recurrence within the one-year (recurrence rate 5.8%) during the follow-up 3-72 months after the surgery. No patient developed a delayed cerebrospinal fluid leak, meningitis, optic nerves injury, internal carotid injury, or other endocrine complications. CONCLUSION: This new technique offers simple and rapid access to the sella turcica and also, direct visualization, improves the surgeons ability to resect tumors, it is a safe, minimally invasive and efficient procedure for removing intrasellar tumor.

OBJECTIVE: Our aim was to report the recent changes in diagnosis and management of TSH-secreting pituitary adenomas. METHODS: We retrieved 43 consecutive patients with TSH-secreting pituitary tumors (23 male and 20 female) among 4400 pituitary adenomas followed between 1976 and 2001 in six Belgian and French centers. RESULTS: TSH was elevated in 18/43 and alpha subunit in 13/32 patients. In patients with intact thyroid (n=30), mean free tri-iodothyronine was 13.1 pmol/l (range 3.5-23) and mean free thyroxine was 38.4 pmol/l (range 10.2-62.7). Hyperprolactinemia and acromegaly were associated in 9/43 and 8/43 cases. The number of associated hypersecretions was higher in macroadenomas than in microadenomas (Chi square = 11.2, P<0.01). Two women had sporadic multiple endocrine neoplasia type 1-associated syndrome. The proportion of microadenomas versus macroadenomas was 1/11 (period 1974-1986) and 8/32 (period 1987-2001). Bilateral petrosal sinus sampling,(111)In-pentreotide scintigraphy and ((11)C)-l-methionine positron emission tomography scan confirmed diagnosis in four questionable microadenomas. Macroadenomas with extrasellar extension (31 cases) had a tendency to be medially located. Medical treatment with somatostatin analogs was initiated as first-line treatment in 26 patients. TSH levels were reduced by more than 50% in 23/26 cases. A tumoral shrinkage of more than 20% was observed in 5/13 cases. Surgery was performed in 36 patients. After 1 year, 21 of them (58.3%) met the criteria of surgical favorable outcome. Pituitary radiotherapy (n=8) and somatostatin analogs allowed normalization in cases not cured by surgery. CONCLUSION: Ultrasensitive methods for TSH measurement led to an earlier recognition of TSH-secreting pituitary tumors. In this series, we observed that TSH-secreting pituitary tumors are today more frequently found at the stage of microadenomas, medially located, without associated hypersecretions and needing new exploration methods as compared with older series. This changing spectrum in the presentation of TSH-secreting pituitary tumors and the excellent response to somatostatin analogs has been accompanied by an improvement in the prognosis of the disease.

OBJECTIVE: Pituitary adenomas rarely occur in childhood and adolescence, but their mass effect and endocrine abnormalities can compromise both quality and length of life. In this study we evaluated the symptoms at onset and the long-term consequences induced in teenagers by functioning or nonfunctioning pituitary adenomas. DESIGN AND PATIENTS: Clinical, biochemical and neuroradiological data of 44 young patients (12 males and 32 females, aged 16.3 +/- 1.9 years at diagnosis) with pituitary adenomas were evaluated retrospectively at baseline and after therapy. Patients underwent surgery, radiotherapy and/or medical treatment depending on clinical history and endocrine secretion of the tumour. Follow-up ranged from 8 to 252 months (median 55 months). MEASUREMENTS: Baseline and dynamic pituitary function were evaluated in all cases at diagnosis and after treatments. Magnetic resonance imaging (MRI) or computed tomography (CT) scan were performed before therapy and during follow-up. Hormone levels were measured using commercial radioimmunologic or immunoradiometric methods. RESULTS: Pituitary macroadenomas (group 1) or microadenomas (group 2) were found in 61% and 39% of cases, respectively. Overall, 68% were PRL-secreting, 7% GH-secreting, 5% ACTH-secreting and 20% nonfunctioning. The most frequent symptoms at onset were oligoamenorrhoea (62%) and galactorrhoea (59%) in the girls, and headache (58%) in the boys. Pubertal development was delayed in 12/27 (44%) cases with macroadenoma. Growth failure was observed in 4/44 (9%) patients (3 in group 1 and 1 in group 2). At diagnosis, hypopituitarism was detected in 10/27 (37%) patients with macroadenoma. Surgery alone cured 4/18 (22%) and 4/9 (44%) patients in group 1 and group 2, respectively. Adjuvant therapies (second surgery and/or radiotherapy and/or medical treatment) cured the disease in 2/13 (15%) patients with macroadenoma and allowed a persistent normalization in other 4/13 (31%) and 2/4 (50%) cases in group 1 and group 2, respectively. Medical treatment alone cured 2/9 (22%) patients with PRL-secreting macroadenoma and normalized PRL levels in another six (66%) with macroprolactinoma and in 2/7 (28%) patients with microprolactinoma. CONCLUSION: Delay of growth was rarely observed in teenagers with pituitary adenomas. At the onset of the disease, many girls complained of oligoamenorrhoea and galactorrhoea, while headache and delay of pubertal development were the symptoms more frequently referred by boys. Surgery alone was effective in a minority of patients and adjuvant therapies were helpful to obtain the remission of the disease in many cases. In patients with PRL-secreting pituitary adenoma, medical treatment, both as first choice or as adjuvant therapy, normalizes serum PRL levels in 14/27 (52%) cases.

OBJECTIVE: The objective of this open study of 104 patients was to determine whether the somatostatin analogue lanreotide shrinks GH-secreting adenomas and to identify the predictive factors of a significant tumour volume reduction (> 20%). PATIENTS: A total of 104 previously untreated and newly diagnosed acromegalic patients received the prolonged release (PR) formulation of lanreotide (lanreotide 30 mg, one intramuscular injection every 10 days) for either 1 (n = 84), 2 (n = 13), or 3 or more (n = 7) months before transsphenoidal surgery. MEASUREMENTS: Pituitary tumour volumes, tumour extension grade and possible cavernous sinus invasion were assessed in blinded conditions by a centralized team of radiologists. Factors such as demographics, tumour characteristics, GH and IGF-I levels were evaluated as possible predictive factors of a significant tumour volume reduction. The clinical activity and random GH, IGF-I, IGFBP-3, PRL, TSH, free T4 and lanreotide levels serum concentrations were measured under basal conditions and in the 10 days before surgery. All analyses were done in a centralized laboratory. The tolerability of preoperative PR lanreotide and the surgical outcome at the 6th month after surgery were assessed. RESULTS: The presurgical treatment improved the symptoms of acromegaly and induced a statistically significant reduction of GH, IGF-I and IGFBP-3. Despite the short duration of the preoperative lanreotide 30 mg treatment, IGF-I levels were normalized in 25% of patients. A statistically significant reduction in tumour volume (P < 0.001) was observed. The median value of the differences was -152 mm3. A reduction in tumour volume was observed in 66% of patients and was > 20% in 29% of all patients included. Both the univariate analyses and the logistic regression model demonstrated that a positive hormone response to preoperative lanreotide 30 mg was the sole predictive factor of a significant tumour shrinkage (odds ratio of 7.8, 95% confidence interval 1.6-37.1). Preoperative PR lanreotide did not modify the expected soft consistence of the tumour. The main adverse events consisted of minor gastrointestinal problems. Univariate analyses revealed that younger age, higher GH and IGF-I levels at diagnosis, higher preoperative tumour volume, more than one tumour extrasellar extension and the presence of cavernous sinus invasion were statistically significant determinants of persistent disease at the 6th month after surgery. The multivariate analysis revealed that higher IGF-I levels at diagnosis and the preoperative cavernous sinus invasion were each statistically significant prognostic factors of persistent disease. CONCLUSIONS: A short administration of preoperative lanreotide 30 mg induced a statistically significant shrinkage of GH-secreting pituitary adenomas where this reduction was > 20% of the pretreatment value in 29% of the whole population. Among the factors considered was the fact that positive hormone response to preoperative lanreotide 30 mg was the sole predictive factor of this significant tumour volume reduction.