H. van Dulken scite author profile

We evaluated survival after optimal treatment for acromegaly and assessed the predictive effects of different remission criteria for survival in 164 consecutive acromegalic patients, treated by transsphenoidal surgery and adjuvant therapy between 1977 and 2002. The goal of treatment was a mean GH less than 5 mU/liter, a normal glucose-suppressed GH, and a normal IGF-I for age in all patients. Surgery initially cured 108 patients (66%). Adjuvant therapy for persistent disease was given to 49 patients. At the end of follow-up (mean, 12.3 yr), remission rates for surgery and multimodality treatment were 54% and 90%, respectively. In 2033 person-years of follow-up, 28 of 164 patients died, resulting in an observed:expected mortality ratio of 1.3 (confidence interval, 0.87-1.87). Significant predictors for survival were the duration of disease and the postoperative glucose-suppressed GH. The effects of these predictors became less significant with increasing follow-up duration. A time-dependent effect on survival was observed for serial IGF-I concentrations, but not for serial GH concentrations. Of the three remission criteria, IGF-I was the only one to be significantly associated with survival in this study, with a relative risk of 4.78 for an elevated as opposed to a normal IGF-I concentration.

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Long-Term Predictive Value of Postsurgical Cortisol Concentrations for Cure and Risk of Recurrence in Cushing’s Disease

Pereira¹,

Aken²,

Dulken³

et al. 2003

The Journal of Clinical Endocrinology & Metabolism

161

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We assessed the value of postoperative plasma cortisol concentrations to predict cure and recurrence of Cushing's disease after transsphenoidal surgery (TS). Seventy-eight of 80 consecutive patients treated by TS for Cushing's disease were evaluated. TS cured 72% (n = 56) of the patients. Two weeks after surgery, patients with plasma cortisol levels below 138 nmol/liter (n = 50; three macroadenomas) and eight (27%) of 30 patients (nine macroadenomas) with cortisol greater than 138 nmol/liter were cured. Six (five with a macroadenoma) of these eight patients had cortisol values less than 50 nmol/liter 3 months after surgery. Therefore, the optimal cut-off value of cortisol predicting remission was 138 nmol/liter, measured 3 months after surgery (positive and negative predictive values 87 and 90%, respectively). Five patients (9%) had recurrent Cushing's disease during a median follow-up of 7 yr. Recurrence occurred in four of 24 (17%) patients with a follow-up of more than 10 yr. Therefore, cortisol levels above 138 nmol/liter, obtained 2 wk after TS, should be repeated, because they do not predict persistent Cushing's disease in 27% of those patients. Postoperative cortisol levels do not positively predict recurrence of disease during long-term follow-up of initially cured patients.

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Long-Term Follow-Up Results of Postoperative Radiotherapy in 36 Patients with Acromegaly

Biermasz¹,

Dulken

Roelfsema³

2000

137

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In acromegaly, pituitary irradiation is a slow, but effective, intervention in decreasing GH concentration. Few studies addressing the outcome of radiotherapy have used the currently accepted strict criteria for remission in the analysis of data. These studies report a low percentage of remission after radiotherapy. Doubt has especially been raised as to whether radiotherapy is effective in normalizing serum insulin-like growth factor (IGF)-I concentration. We analyzed the long-term follow-up data of postoperatively administered radiotherapy in 36 patients with postoperative persistent acromegaly, using both the normalization of GH suppression during oral glucose loading (GTT) and the normalization of IGF-I concentration as criteria for remission. Before radiotherapy, mean suppressed GH was 9.8 +/- 1.9 mU/L (n = 31), and mean IGF-I concentration was 44.3 +/- 3.9 nmol/L, equivalent to + 4.76 +/- 0.78 age-related IGF-I SD score (n = 13). The median radiation dose was 40 Gray (range, 25-50 Gray). At 5, 10, and 15 yr follow-up, 18 out of 30 patients (60%), 23 out of 31 patients (74%), and 16 out of 19 patients (84%), respectively, achieved normal serum IGF-I concentration. At the last assessment of all patients, after a mean follow-up period of 139 +/- 12 months, 27 out of 36 (75%) patients had a normal IGF-I concentration without additional medication, whereas 5 patients still required treatment with octreotide. Remission, as judged by normalization of GH suppression during GTT, was documented in 65% of patients from 2-5 yr after radiotherapy (n = 34); in 69% of patients, up to 10 yr after radiotherapy (n = 29); and in 71% of patients, up to 15 yr post irradiation (n = 17). At the latest assessment, a mean of 125 +/- 11 months after radiotherapy, 71% of patients (n = 35) were in remission, as defined by normal suppression of serum GH during GTT. Remission, as judged by normalization of both GTT and IGF-I, was found in 40% of patients 3-5 yr after radiotherapy (n = 30); in 61% of patients, 6-10 yr after radiotherapy (n = 28); in 65%, after 11-15 yr after radiotherapy (n = 17); and in 63% of patients, at the end of the follow-up period (n = 35). Substitution of one or more pituitary hormone deficiencies was required in 11% of patients postoperatively; in 29%, 5 yr after radiotherapy; in 54%, 10 yr after radiotherapy; and in 58%, more than 15 yr after radiotherapy. Our findings support the use of radiotherapy as an effective intervention in the treatment of residual clinical activity of disease after surgery for acromegaly.

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Long‐term Results of Transsphenoidal Pituitary Microsurgery in 60 Acromegalic Patients

Roelfsema

Dulken

Frölich

1985

Clinical Endocrinology

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Sixty patients with clinically and biochemically active acromegaly were treated by transsphenoidal surgery. All patients underwent a full assessment of pituitary function both preoperatively and postoperatively; these studies were repeated 6 months after surgery and every year, when possible. The mean follow-up period was 3.3 years (range 0.5-7 years). The GH level normalized in 62% of patients after surgery. A paradoxical reaction of GH to TRH was present in 35 patients before surgery and had normalized in 17 after surgery. Large tumours were associated with higher GH levels than smaller tumours. A prognostic factor in terms of normalization of both the GH level and an eventual paradoxical reaction to TRH or a glucose challenge was a low preoperative GH level. Three out of seven patients with either a positive postoperative TRH test but a normal GH level, or a slightly elevated GH level suffered a biochemical and clinical recurrence and two of them underwent reoperation. In contrast, when the TRH test had normalized (always in association with normal GH levels) no recurrence was found. The impact of surgery on the other pituitary functions was generally slight and the numbers of patients with preoperative and postoperative impairment were about equal. Postsurgical radiation therapy was administered to patients with an elevated GH level, a non-normalized TRH test irrespective of whether the GH level had normalized, or local invasion of the tumour. In 11 out of 17 patients with elevated GH levels after surgery, normalization was achieved by radiation therapy after a mean period of 2.7 years. The incidence of pituitary failure after irradiation appeared to be high; gonadal function in men and the GH reserve function were especially vulnerable. From this study we conclude that in many cases the adenoma can be removed effectively, without compromising the other pituitary functions. However, a substantial number of the patients require additional radiation therapy, leading to an inevitable loss of other pituitary functions.

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Progressive improvement of impaired visual acuity during the first year after transsphenoidal surgery for non-functioning pituitary macroadenoma

et al. 2007

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Objective Improvement of visual field defects continues even years after the initial surgical treatment. Because this process of continuing improvement has not been documented for visual acuity, we audited our data to explore the pattern of recovery of visual acuity until 1 year after transsphenoidal surgery for nonfunctioning pituitary macroadenoma. Design Retrospective follow-up study. Patients Forty-three patients (mean age 56 ± 14 years), treated by transsphenoidal surgery for non-functioning pituitary macroadenoma, were included in this analysis. Results Visual acuity improved significantly within 3 months after transsphenoidal surgery. The mean visual acuity increased from 0.65 ± 0.37 to 0.75 ± 0.36 (P < 0.01) (right eye), and from 0.60 ± 0.32 to 0.82 ± 0.30 (P < 0.01) (left eye). Visual acuity was improved 1 year after transsphenoidal surgery compared to the 3 months postoperative values. The mean visual acuity increased from 0.75 ± 0.36 to 0.82 ± 0.34 (P < 0.05) (right eye), and from 0.82 ± 0.30 to 0.88 ± 0.27 (P < 0.05) (left eye). Conclusion Visual acuity improves progressively after surgical treatment for non-functioning pituitary macroadenomas, at least within the first year after transsphenoidal surgery.

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H. van Dulken

Determinants of Survival in Treated Acromegaly in a Single Center: Predictive Value of Serial Insulin-Like Growth Factor I Measurements

Long-Term Predictive Value of Postsurgical Cortisol Concentrations for Cure and Risk of Recurrence in Cushing’s Disease

Long-Term Follow-Up Results of Postoperative Radiotherapy in 36 Patients with Acromegaly

Long‐term Results of Transsphenoidal Pituitary Microsurgery in 60 Acromegalic Patients

Progressive improvement of impaired visual acuity during the first year after transsphenoidal surgery for non-functioning pituitary macroadenoma

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