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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT01379898
Other study ID # PRESCRIPT2010.369
Secondary ID 2010:022417-25
Status Completed
Phase Phase 4
First received May 19, 2011
Last updated January 29, 2018
Start date December 2011
Est. completion date January 2018

Study information

Verified date January 2018
Source University Medical Center Groningen
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

- Rationale: The optimal preoperative medical management for patients with a pheochromocytoma is currently unknown. In particular, there is no agreement with respect to whether phenoxybenzamine or doxazosin is the optimal alfa-adrenoreceptor antagonist to be administered before surgical resection of a pheochromocytoma. We hypothesized that the competitive alfa1-antagonist doxazosin is superior to the non-competitive alfa1- and alfa2-antagonist phenoxybenzamine.

- Objective: comparing effects of preoperative treatment with either phenoxybenzamine or doxazosin on intraoperative hemodynamic control in patients undergoing surgical resection of a pheochromocytoma.

- Study design: Randomised controlled open-label trial.

- Study population: 18 - 55 yr old. Adult patients with a recently diagnosed benign pheochromocytoma.

- Intervention: Patients are randomised to receive oral treatment with either phenoxybenzamine or doxazosin preoperatively.

- Main study parameters/endpoints: The main study parameter is defined as the percentage of intraoperative time that blood pressure is outside the predefined target range after pretreatment with either phenoxybenzamine or doxazosin.

In this multicenter trial, we compare the effects of two commonly used drugs in patients being medically prepared for resection of a benign pheochromocytoma. Participants are not subjected to an experimental treatment of any kind, as we merely aim to describe in detail the perioperative course in general and, in particular, the intraoperative hemodynamic control in patients treated preoperatively with either phenoxybenzamine or doxazosin. A routine diagnostic work-up for pheochromocytoma will be performed in all participants. One extra blood sample (volume: 48,5 mL) is drawn before start of the study medication, and participants need to record their symptoms in a diary. In addition, patients who are pretreated in the outpatient clinic monitor their blood pressure and pulse rate at home with an automated device. Treatment with an alfa-adrenoreceptor antagonist is initiated at least 2 - 3 weeks prior to surgery. Patients who are admitted to the hospital for pretreatment with an alfa-adrenoreceptor antagonist have their blood pressure and pulse rate measured by the nursing staff. The final site visit is planned at 30 days after surgery, in line with current practice.


Description:

1. INTRODUCTION AND RATIONALE Pheochromocytoma (PCC) is a rare but clinically important catecholamine secreting neuro-endocrine tumour that typically arises from the adrenal gland. In addition, this neuro-endocrine tumour can also originate from chromaffin cells in sympathetic ganglia(1)(2). In this protocol, PCC refers to both adrenal and extra-adrenal chromaffin tumours with hypersecretion of catecholamines (i.e. norepinephrine and/or epinephrine). The annual incidence rate in the US population has been estimated to be 1-2 cases per 100,000 adult individuals (3). Data on the incidence and prevalence of PCC in the Netherlands have not been published. Based on the Dutch registry of pathology diagnoses (PALGA), we found an incidence of 117 cases of PCC in the year 2007 (unpublished observation).

PCCs may occur as part of an autosomal dominant inherited tumor syndrome, caused by germline mutations in the RET proto-oncogene (Multiple Endocrine Neoplasia type 2 syndrome), VHL gene (von Hippel-Lindau disease), NF1 gene (Neurofibromatosis type 1), or in one of the genes encoding the subunits of mitochondrial complex II, also called succinate dehydrogenase (SDHB, SDHC, SDHD)(4). PCCs are termed 'sporadic' when the family history for PCC is negative. Overall, about 25% of all PCC patients harbour a germline mutation. Notably, germline mutations in one of the PCC susceptibility genes may also be present in a significant number of patients with a sporadic PCC, with mutation rates varying between 7.5 - 14.6% in the populations studied(5-7). Therefore, genetic testing is recommended in all patients with PCC(7). Very recently, a new PCC susceptibility gene has been described, and it seems likely that future research will result in the discovery of other genetic mutations associated with PCC(8).

PCC constitutes a surgically curable cause of hypertension. Hypertension in patients with PCC can be either persistent or paroxysmal, but is absent in a minority of patients. It is a potentially life-threatening disease with a high risk for cardiovascular complications such as myocardial infarction, arrhythmias, cardiomyopathy, stroke and pulmonary edema(1). The clinical picture results from release of catecholamines by the tumour. This release can be evoked by stimuli that would normally not pose a hazard, such as surgery or general anaesthesia. Thus, preoperative treatment with alpha-adrenoceptor antagonists is usually recommended for prevention of these serious and potentially fatal complications(9). In one of the largest surgical series reported so far, perioperative mortality and morbidity were 2.4% and 23.6%, respectively(10).

According to the literature, about 10% of the patients with PCC are normotensive(1). A normal blood pressure at diagnosis is relatively frequent among carriers of one the aforementioned germline mutations, as these individuals are subjected to periodic biochemical screening for the presence of PCC. It has been demonstrated that intraoperative hemodynamic instability during adrenalectomy for PCC occurred to the same extent in MEN2a patients (most of whom were normotensive) as in patients without MEN2a (most of whom were hypertensive)(11). Thus, preoperative treatment with alpha -adrenoceptor antagonists is also recommended for normotensive patients with PCC (9,11), Historically, the noncompetitive and nonselective alpha -adrenoceptor antagonist phenoxybenzamine has been the drug of choice(12). Alternatively, doxazosin - a competitive and selective alpha 1-adrenoceptor antagonist - might be at least as effective asphenoxybenzamine with fewer side effects. Notably, it has been suggested that doxazosin results in a significant and clinically relevant reduction of postoperative hypotension(13). Severe postoperative hypotension necessitates admission to the intensive care unit (ICU), where volume resuscitation and norepinephrine are administered under strict monitoring of hemodynamics. Data on the optimal preoperative pharmacological management of patients with PCC are conflicting. For example, a recent study reported comparable effects of phenoxybenzamine and doxazosin on intraoperative hemodynamic control(14).This study, however, was retrospective in design and therefore affected by several confounding factors such as lack of randomisation, non-standardised intraoperative care, and use of historical controls. Until now, prospective randomised controlled trials comparing phenoxybenzamine and doxazosin have not been conducted. Thus, the preoperative drug therapy of choice remains an unresolved issue, and at a recent international PCC symposium it was concluded that no specific recommendations can be made on this subject(9). We performed a survey among all university medical centers in the Netherlands, showing that almost half of the centers prescribed phenoxybenzamine, whereas the other centers used doxazosine as the preoperative drug of choice for patients with PCC(15). Usually, these drugs are administered during 2-3 weeks before surgery. This preoperative medical preparation takes place either in the outpatient or inpatient clinic, depending on patient-related factors (e.g. disease severity, geographical considerations) and local experience.

Preoperative volume expansion is recommended in all patients with PCC(9). The rationale behind this recommendation is based on the notion that PCC is associated with a decreased intravascular volume, which is restored under influence of treatment with alpha -adrenoceptor antagonists. Without administration of volume expansion severe hypotension might ensue. Therefore, it is common practice to advise a liberal salt intake during alpha -adrenoceptor antagonist therapy and to administer a saline infusion (e.g. 2L NaCL 0.9% in 24 hours) shortly before surgery(9,15).

Several drugs, including certain anaesthetics, may evoke an uncontrolled catecholamine release with resulting severe hemodynamic instability(16). Patients are advised to carry a document enlisting all medications which are contra-indicated in case of a PCC. There is no consensus on the optimal anaesthetic management during resection of a PCC, as randomised controlled trials on this subject are not available(16,17). In a survey on the anaesthetic management of PCC in the Netherlands, we found as many different protocols as the number of hospitals (=10) which had responded (including all university medical centers; unpublished observation).

PRESCRIPT represents the first randomised controlled trial comparing the effects of pretreatment with either phenoxybenzamine or doxazosin on the intraoperative hemodynamic control in patients with PCC. The relevance of conducting a trial as described in this study protocol was recently expressed again by experts in the field of PCC research(18). In addition, PRESCRIPT provides a unique opportunity to prospectively collect data containing detailed information on items such as presenting symptoms and signs, perioperative outcome and results of biochemical, imaging and genetic studies in patients with PCC. Of interest, results of this study are expected to have a direct impact on national and international guidelines regarding the perioperative care of patients with PCC.

2. OBJECTIVES Primary Objective: The primary objective is to determine which of two commonly used drugs for preoperative management provides the best intraoperative hemodynamic control in patients undergoing resection of a PCC.

Secondary Objective(s):

- to identify other determinants of intraoperative hemodynamic control. Potential determinants are: gender or age of the patient, clinical setting for preoperative management (i.e. outpatient or inpatient clinic), preoperative levels, of catecholamines or N-terminal pro-brain-type natriuretic peptide (NT-proBNP) PCC size, sporadic or hereditary PCC,

- to describe prospectively symptoms and signs of PCC in a large cohort of patients. Note: until now, data on symptoms and signs have been described retrospectively

- to describe prospectively the results of several diagnostic techniques

- to assess prospectively the distribution of sporadic and hereditary PCC in a large cohort of Dutch patients

- to build a biobank with blood and tissue samples for future studies on PCC

3. STUDY DESIGN Randomised open-label controlled trial.


Recruitment information / eligibility

Status Completed
Enrollment 134
Est. completion date January 2018
Est. primary completion date January 2018
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria:

- age > 18 years

- diagnosis of benign Pheochromocytoma (adrenal or extra-adrenal, sporadic or hereditary:

- hypertension

- elevated plasma and/or urinary (nor)metanephrines. From each patient, a blood sample is collected for measurement of plasma (nor)metanephrines with the reference laboratory assay (i.e. XLC-MS/MS) at the Department of Laboratory Medicine of the UMCG.

- localisation of PCC by anatomical (MRI/CT) and functional imaging (I123-MIBG scintigraphy or 18F-DOPA PET)

- planned for surgical removal of the PCC

Exclusion Criteria:

- age < 18 years

- malignant PCC, i.e. presence of lesions on imaging studies suggestive of distant metastases

- severe hemodynamic instability before surgery necessitating admission to intensive care unit

- pregnancy

- incapability to adhere to the study protocol

Study Design


Related Conditions & MeSH terms


Intervention

Drug:
Phenoxybenzamine
Starting dosage of phenoxybenzamine in hypertensive subjects:20 mg q.d. (=10 mg b.i.d.) and in normotensive subjects 10 mg q.d. (in the evening). Dose escalation until blood pressure targets are reached, with a maximum dose of 140 mg q.d. (=70 mg b.i.d.)
Doxazosin
Starting dosage of doxazosine in hypertensive subjects:8 mg q.d. (=4 mg b.i.d.)and in normotensive subjects starting dose 4 mg q.d. (in the evening). Dose escalation until blood pressure targets are reached, with a maximum dose of 48 mg q.d. .(=24 mg b.i.d.)

Locations

Country Name City State
Netherlands Department of Endocrinology, University Medical Center Groningen Groningen

Sponsors (15)

Lead Sponsor Collaborator
University Medical Center Groningen Academisch Medisch Centrum - Universiteit van Amsterdam (AMC-UvA), Atrium Medical Center, Canisius-Wilhelmina Hospital, Erasmus Medical Center, Isala, Leiden University Medical Center, Maastricht University Medical Center, Maxima Medical Center, Medisch Spectrum Twente, Onze Lieve Vrouwe Gasthuis, Radboud University, St. Antonius Hospital, UMC Utrecht, VU University of Amsterdam

Country where clinical trial is conducted

Netherlands, 

References & Publications (23)

Amar L, Bertherat J, Baudin E, Ajzenberg C, Bressac-de Paillerets B, Chabre O, Chamontin B, Delemer B, Giraud S, Murat A, Niccoli-Sire P, Richard S, Rohmer V, Sadoul JL, Strompf L, Schlumberger M, Bertagna X, Plouin PF, Jeunemaitre X, Gimenez-Roqueplo AP. Genetic testing in pheochromocytoma or functional paraganglioma. J Clin Oncol. 2005 Dec 1;23(34):8812-8. — View Citation

Beard CM, Sheps SG, Kurland LT, Carney JA, Lie JT. Occurrence of pheochromocytoma in Rochester, Minnesota, 1950 through 1979. Mayo Clin Proc. 1983 Dec;58(12):802-4. — View Citation

Bruynzeel H, Feelders RA, Groenland TH, van den Meiracker AH, van Eijck CH, Lange JF, de Herder WW, Kazemier G. Risk Factors for Hemodynamic Instability during Surgery for Pheochromocytoma. J Clin Endocrinol Metab. 2010 Feb;95(2):678-85. doi: 10.1210/jc.2009-1051. Epub 2009 Dec 4. — View Citation

Eisenhofer G, Bornstein SR. Surgery: Risks of hemodynamic instability in pheochromocytoma. Nat Rev Endocrinol. 2010 Jun;6(6):301-2. doi: 10.1038/nrendo.2010.65. — View Citation

Eisenhofer G, Rivers G, Rosas AL, Quezado Z, Manger WM, Pacak K. Adverse drug reactions in patients with phaeochromocytoma: incidence, prevention and management. Drug Saf. 2007;30(11):1031-62. Review. — View Citation

Gimenez-Roqueplo AP, Lehnert H, Mannelli M, Neumann H, Opocher G, Maher ER, Plouin PF; European Network for the Study of Adrenal Tumours (ENS@T) Pheochromocytoma Working Group. Phaeochromocytoma, new genes and screening strategies. Clin Endocrinol (Oxf). 2006 Dec;65(6):699-705. — View Citation

Karthikeyan G, Moncur RA, Levine O, Heels-Ansdell D, Chan MT, Alonso-Coello P, Yusuf S, Sessler D, Villar JC, Berwanger O, McQueen M, Mathew A, Hill S, Gibson S, Berry C, Yeh HM, Devereaux PJ. Is a pre-operative brain natriuretic peptide or N-terminal pro-B-type natriuretic peptide measurement an independent predictor of adverse cardiovascular outcomes within 30 days of noncardiac surgery? A systematic review and meta-analysis of observational studies. J Am Coll Cardiol. 2009 Oct 20;54(17):1599-606. doi: 10.1016/j.jacc.2009.06.028. Review. — View Citation

Kim AW, Quiros RM, Maxhimer JB, El-Ganzouri AR, Prinz RA. Outcome of laparoscopic adrenalectomy for pheochromocytomas vs aldosteronomas. Arch Surg. 2004 May;139(5):526-9; discussion 529-31. — View Citation

Kinney MA, Warner ME, vanHeerden JA, Horlocker TT, Young WF Jr, Schroeder DR, Maxson PM, Warner MA. Perianesthetic risks and outcomes of pheochromocytoma and paraganglioma resection. Anesth Analg. 2000 Nov;91(5):1118-23. — View Citation

Kocak S, Aydintug S, Canakci N. Alpha blockade in preoperative preparation of patients with pheochromocytomas. Int Surg. 2002 Jul-Sep;87(3):191-4. — View Citation

Korpershoek E, Van Nederveen FH, Dannenberg H, Petri BJ, Komminoth P, Perren A, Lenders JW, Verhofstad AA, De Herder WW, De Krijger RR, Dinjens WN. Genetic analyses of apparently sporadic pheochromocytomas: the Rotterdam experience. Ann N Y Acad Sci. 2006 Aug;1073:138-48. — View Citation

Lenders JW, Eisenhofer G, Armando I, Keiser HR, Goldstein DS, Kopin IJ. Determination of metanephrines in plasma by liquid chromatography with electrochemical detection. Clin Chem. 1993 Jan;39(1):97-103. — View Citation

Lenders JW, Eisenhofer G, Mannelli M, Pacak K. Phaeochromocytoma. Lancet. 2005 Aug 20-26;366(9486):665-75. Review. — View Citation

Mueller T, Gegenhuber A, Dieplinger B, Poelz W, Haltmayer M. Capability of B-type natriuretic peptide (BNP) and amino-terminal proBNP as indicators of cardiac structural disease in asymptomatic patients with systemic arterial hypertension. Clin Chem. 2005 Dec;51(12):2245-51. Epub 2005 Oct 13. — View Citation

Neumann HP, Cybulla M, Shibata H, Oya M, Naruse M, Higashihara E, Terachi T, Ling H, Takami H, Shuin T, Murai M. New genetic causes of pheochromocytoma: current concepts and the clinical relevance. Keio J Med. 2005 Mar;54(1):15-21. Review. — View Citation

Pacak K, Eisenhofer G, Ahlman H, Bornstein SR, Gimenez-Roqueplo AP, Grossman AB, Kimura N, Mannelli M, McNicol AM, Tischler AS; International Symposium on Pheochromocytoma. Pheochromocytoma: recommendations for clinical practice from the First International Symposium. October 2005. Nat Clin Pract Endocrinol Metab. 2007 Feb;3(2):92-102. — View Citation

Pacak K. Preoperative management of the pheochromocytoma patient. J Clin Endocrinol Metab. 2007 Nov;92(11):4069-79. Review. — View Citation

Plouin PF, Duclos JM, Soppelsa F, Boublil G, Chatellier G. Factors associated with perioperative morbidity and mortality in patients with pheochromocytoma: analysis of 165 operations at a single center. J Clin Endocrinol Metab. 2001 Apr;86(4):1480-6. — View Citation

Prys-Roberts C, Farndon JR. Efficacy and safety of doxazosin for perioperative management of patients with pheochromocytoma. World J Surg. 2002 Aug;26(8):1037-42. Epub 2002 Jun 19. — View Citation

Qin Y, Yao L, King EE, Buddavarapu K, Lenci RE, Chocron ES, Lechleiter JD, Sass M, Aronin N, Schiavi F, Boaretto F, Opocher G, Toledo RA, Toledo SP, Stiles C, Aguiar RC, Dahia PL. Germline mutations in TMEM127 confer susceptibility to pheochromocytoma. Nat Genet. 2010 Mar;42(3):229-33. doi: 10.1038/ng.533. Epub 2010 Feb 14. — View Citation

Shen WT, Grogan R, Vriens M, Clark OH, Duh QY. One hundred two patients with pheochromocytoma treated at a single institution since the introduction of laparoscopic adrenalectomy. Arch Surg. 2010 Sep;145(9):893-7. doi: 10.1001/archsurg.2010.159. — View Citation

van der Horst-Schrivers AN, Kerstens MN, Wolffenbuttel BH. Preoperative pharmacological management of phaeochromocytoma. Neth J Med. 2006 Sep;64(8):290-5. Review. — View Citation

Weingarten TN, Cata JP, O'Hara JF, Prybilla DJ, Pike TL, Thompson GB, Grant CS, Warner DO, Bravo E, Sprung J. Comparison of two preoperative medical management strategies for laparoscopic resection of pheochromocytoma. Urology. 2010 Aug;76(2):508.e6-11. doi: 10.1016/j.urology.2010.03.032. Epub 2010 May 23. — View Citation

* Note: There are 23 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary The main study parameter is defined as the percentage of intraoperative time that blood pressure is outside the predefined target range after pretreatment with either phenoxybenzamine or doxazosin. Blood pressure and heart rate will be monitored continuesly during surgery. Duration of surgery, i.e. on average 3 hours
Secondary To attain preoperative blood pressure target values without co-medication success rate of doxazosin and phenoxybenzamine to attain preoperative blood pressure target values without co-medication an expected average of 2 to 6 weeks before surgery
Secondary Resolution of (paroxysmal) symptoms and signs of pheochromocytoma. Resulution of headache, palpitations, sweeting, paleness, nausea, flushes, fatigue and anxiety. an expected average of 2-6 weeks before surgery
Secondary Need for additional antihypertensive agents Assessment of the number of patients who need additional antihypertensive drugs on top of the study drugs an expected average of 2-6 weeks before surgery
Secondary Adverse effects of study medication Adverse effects of doxazosin or phenoxybenzamine an expected average of 2-6 weeks before surgery
Secondary Length of preoperative treatment in either outpatient or inpatient clinic. Comparing duration of preoperative treatment in either outpatient or inpatient clinic an expected average of 2-6 weeks before surgery
Secondary Control of blood pressure and heart rate. number of episodes with systolic blood pressure (SBP) > 160 mmHg
number of episodes with mean arterial blood pressure (MAP) < 60 mmHg
duration (in minutes) of SBP > 160 mmHg
duration (in minutes) of MAP < 60 mmHg
number of episodes with heart rate > 100/min
duration (in minutes) of heart rate > 100/min
amount and type of vasoactive agents needed during surgery for adequate blood pressure control.
cumulative amount and type of intravenous fluids administered
Duration of surgery, i.e. on average 3 hours
Secondary Length of hospital stay. Number of days the patient is staying in the hospital before and after surgery Participants will be followed for the duration of hospital stay an expected average of 2-5 weeks.
Secondary Composite semi-quantitative score of intra- and postoperative hemodynamic control. Composite semi-quantitative score of intra- and postoperative hemodynamic control based on the following parameters:
blood pressure and heart rate outside target range
need for administration of vasoactive agents
need for administration of intravenous fluids
During surgery and the first 24 hours after surgery at the intensive/ medium care unit
Secondary Postoperative hypoglycaemia Frequency and severity (in mmol/L)of hypoglycaemia during first 24 hours after surgery. First 24 hours postoperative
Secondary Perioperative mortality. Death from any cause occurring during period from first administration of study medication until 30 days after surgery. From first administration of study medication until 30 days after surgery.
Secondary Perioperative cardiovascular morbidity. Cardiovascular events occurring during period from first administration of study medication until 30 days after surgery. Cardiovascular events are: myocardial infarction, cardiac arrhythmia requiring medical intervention, heart failure, cerebrovascular ischemia, cerebrovascular haemorrhage. From first administation of study medicaion until 30 days after surgery.
Secondary Composite endpoint of perioperative mortality and perioperative cardiovascular morbidity. Death from any cause occurring or cardiovascular events occurring during period from first administration of study medication until 30 days after surgery. From first administration of study medication until 30 days after surgery.
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