Long-Term Remission of Acromegaly after Octreotide Withdrawal Is an Uncommon and Frequently Unsustainable Event
Background: Long-term remission of acromegaly after somatostatin analog withdrawal has been reported in 18-42% of patients in studies with a relatively small number of patients using different inclusion and remission criteria. The objectives of this study were to establish the probability and predictive factors for short- and long-term remission [normal IGF-1 for age/sex: IGF-1 ≤1.00 × upper limit of normal (ULN)] after octreotide long-acting release (LAR) withdrawal in a larger population of well-controlled patients with acromegaly (normal mean IGF-1 in the last 24 months). Methods: This is a prospective multicenter study in which 58 well-controlled patients with acromegaly receiving only octreotide LAR as a primary or postsurgical treatment were included in 14 university centers in Brazil. All patients had been on stable doses and dose intervals of octreotide LAR in the last year, and none had been submitted to radiotherapy. The main outcome measure was serum IGF-1 after 8 weeks (short-term) and 60 weeks (long-term) of octreotide LAR withdrawal. Results: Seventeen of 58 patients (29%) were in remission in the short term, and only 4 patients achieved long-term remission after treatment withdrawal. The Kaplan-Meier estimated remission probability at 60 weeks was 7% and decreased to 5% at 72 weeks. The short-term remission rate was significantly higher (44%; p = 0.017) in patients with pretreatment IGF-1 <2.4 × ULN. No other predictive factor for short- or long-term remission was found. Conclusion: Our results show that long-term remission of acromegaly after octreotide LAR withdrawal was an uncommon and frequently unsustainable event and do not support the recommendation of a systematic withdrawal of treatment in controlled patients.
Context Soluble alpha klotho (sαKL) has been linked to growth hormone (GH) action, but systematic evaluation and comparison to traditional biomarkers in acromegaly are lacking. Objective To evaluate the potential of sαKL to aid classification of disease activity. Design and setting Retrospective study at two academic centers. Patients Patients with acromegaly before surgery (A, n=29), after surgery controlled, discordant or uncontrolled without (B1, B2, B3, n=28, 11, 8) or with somatostatin analogue treatment (C1, C2, C3, n=17,11, 5), non-functioning pituitary adenomas (n=20) and healthy controls (n=31). Interventions sαKL was measured by immunoassay and compared to traditional biomarkers (random and nadir GH, insulin-like growth-factor I (IGF-I), IGF binding-protein 3. Associations with disease activity were assessed. Results sαKL was correlated to traditional biomarkers, but particularly to IGF-I (rs=0.80, p<0.0001). High concentrations before treatment (A, median, IQR: 4.04 xULN (2.26-8.08)) dropped to normal after treatment in controlled, and in most discordant patients. A cut-off of 1548 pg/mL for sαKL discriminated controlled (B1, C1) and uncontrolled (B3, C3) patients with 97.8% (88.4-99.9) sensitivity and 100% (77.1-100) specificity. sαKL was below the cut-off in 84% of the discordant subjects. In the remaining 16%, sαKL and IGF-I persisted elevated, despite normal random GH. Sex, age, BMI and markers of bone and calcium metabolism did not significantly affect sαKL concentrations. Conclusions Our data support sαKL as a biomarker to assess disease activity in acromegaly. It exhibits close association with GH secretory status, large dynamic range and robustness towards biological confounders. Its measurement could be helpful particularly when GH and IGF-I provide discrepant information
Pasireotide is a new-generation somatostatin analog that acts through binding to multiple somatostatin receptor subtypes. Studies have shown that pasireotide induces hyperglycemia, reduces glucocorticoid secretion, alters neurotransmission, and potentially affects stress responses typically manifested as hyperglycemia and increased corticosterone secretion. This study specifically aimed to evaluate whether pasireotide treatment modifies glucose and costicosterone secretion in response to acute restraint stress. Male Holtzman rats of 150-200 g were treated with pasireotide (10 µg/kg/day) twice-daily for two weeks or vehicle for the same period. Blood samples were collected at baseline and after 5, 10, 30, and 60 min of restraint stress. The three experimental groups comprised of vehicle + restraint (VEHR), pasireotide + restraint (PASR), and pasireotide + saline (PASNR). Following pasireotide treatment, no significant differences in baseline glucose and corticosterone levels were observed among the three groups. During restraint, hyperglycemia was observed at 10 min (p < .01 for both comparisons), peaked at 30 min (p < .01 for both comparisons) and showed higher 60 min areas under glucose curves in the VEHR and PASR stressed groups when compared to the non-stressed PASNR group (p < .05 for both comparisons). Restraint also increased corticosterone secretion in the VEHR and PASR stressed groups at 5 min (p < .01 for both comparisons), and peaked at 30 min (p < .01 for both comparisons) with corresponding higher 60 min areas under corticosterone curves when compared to the non-stressed PASNR group (p < .01 for both comparisons). In conclusion, pasireotide treatment does not modify hyperglycemic- and corticosterone-restraint stress responses, thus preserving acute stress regulation.
Angiotensin‐converting enzyme inhibition increases glucose‐induced insulin secretion in response to acute restraint
There is increasing evidence suggesting involvement of the renin-angiotensin system (RAS) in carbohydrate metabolism and its response to stress. Thus, the aim of the present study was to evaluate the effects of chronic inhibition of the RAS on glucose and insulin levels during acute restraint stress. Male Holtzman rats were treated with 10 mg/kg per day enalapril solution or vehicle for 14 days. After 14 days, rats were divided into three experimental groups: enalapril + restraint (ER), vehicle + restraint (VR) and enalapril + saline (ES). Rats in the restraint groups were subjected to 30 min restraint stress, whereas rats in the ES groups were given saline infusion instead. Blood samples were collected at baseline and after 5, 10, 20 and 30 min restraint stress or saline infusion. After restraint, a hyperglycaemic response was observed in the ER and VR groups that peaked at 20 and 10 min, respectively (P < 0.05 compared with baseline). The area under the glucose curve was markedly increased in the ER and VR groups compared with that in the ES group (P < 0.05 for both). Importantly, restraint induced a marked increase in insulin secretion in the ER group compared with only a mild elevation in the VR group; insulin secretion in both groups peaked at 20 min (P < 0.05 compared with baseline). Analysis of the area under the insulin curve confirmed an increase in insulin secretion in the ER compared with the VR and ES groups (P < 0.05 for both). The results of the present study reinforce that the RAS is involved in modulating responses to stress and suggest that RAS inhibition with enalapril may increase glucose-induced insulin secretion in response to acute restraint.
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