Intraoperative MRI improves complete resection of pituitary macroadenoma

Posted on October 18, 2017 by MaryO
Endocrine Today, October 2017
Brooke Swearingen, MD; Stephanie L. Lee, MD, PhD, ECNU

A 63-year-old man was referred to the Massachusetts General Hospital Neuroendocrine & Pituitary Tumor Clinical Center for management of a pituitary macroadenoma. He experienced increasingly severe retro-orbital headaches in the past year. He reported no double vision, fatigue, orthostatic dizziness, change in beard growth or reduction in libido. An outside head CT scan showed an enlarged pituitary gland.

Imaging and laboratory tests

A pituitary MRI with magnified pituitary slices and gadolinium contrast was ordered. A well-circumscribed “snowman-shaped” sellar mass was identified, measuring 2.6 cm x 2 cm x 1.8 cm (anteroposterior x transverse x craniocaudal) with suprasellar extension (Figure 1). The lesion was heterogeneous on T1-weighted scans after enhancement with IV gadolinium contrast. An area of hypointensity in the superior margin was consistent with a small area of cystic or hemorrhagic degeneration.

Although the mass did not extend laterally into the cavernous sinus, the sellar mass extended upward into the suprasellar cistern through a hole in the dural, the diaphragma sellae, to compress the optic chiasm. The restriction of adenoma growth by the diaphragma sellae results in the snowman shape of the macroadenoma. The optic chiasm and infundibulum (pituitary stalk) could not be identified on coronal or sagittal images (Figure 1). Visual field on confrontation suggested lateral field deficits (bilateral lateral hemianopsia) that were confirmed on formal Goldmann kinetic perimetry visual fields.

Figure 1. Preoperative MRI scan. A large “snowman-shaped” pituitary adenoma (green arrow) has heterogeneous enhancement after gadolinium contrast administration. A small hypodense area in the adenoma likely represented hemorrhage/cystic degeneration (yellow arrow). The tumor does not surround the carotid siphon, an S-shaped portion of the internal carotid artery (red arrows) within the cavernous sinus located laterally from the sella turcica where the pituitary gland resides. (A) Coronal image. (B) Sagittal image. Abbreviation: SS = spenoid sinus.

Source: Stephanie L. Lee, MD, PhD, ECNU. Reprinted with permission.

Initial hormonal evaluation was normal and included morning adrenocorticotropic hormone 18 pg/mL, cortisol 13.64 µg/dL, thyroid-stimulating hormone 2.14 uIU/mL, free thyroxine 1.2 ng/dL and prolactin 12.6 ng/mL. The patient’s morning testosterone level was normal at 324 ng/dL, with follicle-stimulating hormone 2.4 mIU/mL and luteinizing hormone 1.6 mIU/mL. His insulin-like growth factor I level was normal at 124 ng/mL.

Tumor resection

The patient was treated preoperatively with stress-dose hydrocortisone 50 mg. He then underwent transsphenoidal pituitary tumor resection. After the surgeon believed there was an adequate excision of the tumor, the extent of tumor resection was confirmed by an intraoperative MRI (Figure 2 on page 8).

Figure 2. Intraoperative MRI scan. The large macroadenoma is not seen after transsphenoidal surgery. The optic chiasm (yellow arrow) can be seen after removal of the tumor. (A) Coronal image. (B) Sagittal image. Abbreviation: SS = spenoid sinus.

The operation was concluded after the imaging confirmed the complete resection of the pituitary adenoma. The patient’s postoperative course was uneventful. Imaging 4 weeks after the resection confirmed complete resection of the suprasellar mass with residual enhancement of the resection bed and sphenoid sinuses (Figure 3 on page 8). The postoperative MRI revealed a normal optical chiasm and a downward tending of the infundibulum to the residual pituitary gland located inferiorly along the sella turcica (pituitary fossa) of the sphenoid bone. Pathology confirmed a pituitary adenoma. His anterior and posterior pituitary function were normal 6 weeks postoperatively, and his visual field deficit improved.

Intraoperative MRI

Imaging like that used in this case occurs in a specially designed operating room that allows MRI scans during surgery without moving the patient from the surgical table. The MRI is kept in a shielded enclosure during the procedure and then moved along a track into the operating room for imaging. Clinical indications for the use of intraoperative MRI in neurosurgery include resection of pituitary macroadenomas. In the past, these tumors underwent transsphenoidal resection, and the postoperative MRI was performed after 1 or more days after the procedure to check for complete removal. If residual tumor was found, the patients underwent watchful waiting, external radiation or repeat surgery.

The strategic advantage of an intraoperative MRI is that the imaging is performed during the operative procedure, and if there is any residual tumor, surgery can be resumed after the MRI is moved back into the shielded enclosure.

Figure 3. Four-week postoperative MRI scan. The large macroadenoma is not seen after the transsphenoidal survey. The optic chiasm and infundibulum (pituitary stalk) can be seen after resection of the tumor. The pituitary stalk is deviated to the left of the sella where the residual normal thyroid is locate along the sella turcica. The floor of the sella enhances with gadolinium infusion after surgery due to postoperative inflammation. (A) Coronal image. (B) Sagittal image. Abbreviation: SS = spenoid sinus.

It has been reported that the use of intraoperative MRI does not increase complication rates compared with conventional transsphenoidal surgery. Reports on the improvement of gross tumor resection using intraoperative MRI are variable, perhaps due to the expertise of the surgeon. Several reports suggest the use of intraoperative MRI allowed additional resection of noninvasive macroadenomas in 67% to 83% of the patients with a gross tumor resection. These results suggest that a substantial volume reduction and increased gross tumor resection of pituitary macroadenomas occurs with the use of intraoperative MRI compared with standard surgery. One study demonstrated that the gross tumor resection rates of invasive tumors was also improved with the use of intraoperative MRI compared with usual preoperative imaging and surgery (25% vs. 7%).

The use of intraoperative MRI, especially with transsphenoidal reoperations for invasive and noninvasive pituitary macroadenomas, leads to significantly higher “gross tumor resection” rates. This method prevents additional operations or treatment, such as radiation, because it reduces the number of patients with residual adenoma after surgery. This technology is usually found in specialized tertiary care hospitals but should be considered for reoperation for large pituitary macroadenomas or initial operation for large invasive pituitary macroadenomas.

  • References:
  • Boellis A, et al. J Magn Reson Imaging. 2014;doi:10.1002/jmri.24414.
  • Fomekong E, et al. Clin Neurol Neurosurg. 2014;doi:10.1016/j.clineuro.2014.09.001.
  • Tandon V, et al. J Clin Neurosci. 2017;doi:10.1016/j.jocn.2016.10.044.
  • For more information:
  • Stephanie L. Lee, MD, PhD, ECNU, is an Endocrine Today Editorial Board Member. She is associate professor of medicine and director of thyroid health in the Section of Endocrinology, Diabetes and Nutrition at Boston Medical Center. She can be reached at Boston Medical Center, 88 E. Newton St., Boston, MA 02118; email: stephanie.lee@bmc.org.
  • Brooke Swearingen, MD, is associate professor of surgery (neurosurgery) at Harvard Medical School and co-director of the neurological ICU at Massachusetts General Hospital. He can be reached at bswearingen@partners.org.

Disclosures: Lee and Swearingen report no relevant financial disclosures.

From https://www.healio.com/endocrinology/neuroendocrinology/news/print/endocrine-today/%7B23183444-4d29-477b-844f-6eb995ac74f4%7D/intraoperative-mri-improves-complete-resection-of-pituitary-macroadenoma

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Webinar: Diagnosis and Management of Acromegaly: A Clinical Update

Posted on July 19, 2015 by MaryO

Presented by
Lisa Nachtigall, MD
Co-director Neuroendocrine Clinical Center
Massachusetts General Hospital

Register Here

After registering you will receive a confirmation email with details about joining the webinar.

Contact us at webinar@pituitary.org with any questions or suggestions.

Date: Monday, July 27, 2015
Time: 2:00 PM – 3:00 PM Pacific Daylight Time

Presenter Bio
Lisa B. Nachtigall, MD, is an Associate Professor of Medicine at Harvard Medical School, the clinical co-director of the Neuroendocrine Clinical Center at Massachusetts General Hospital and course director in Clinical Neuroendocrine at Harvard Medical School.

Dr. Nachtigall earned her medical degree from New York University (NYU) School of Medicine in New York City. She completed her internship and residency in internal medicine at Bellevue Hospital Center/NYU school of Medicine, and a clinical fellowship in endocrinology and metabolism, as well as a research fellowship in reproductive endocrinology at Massachusetts General Hospital/Harvard Medical School.

Dr. Nachtigall’s work has been published in the New England Journal of Medicine, the Journal of Clinical Endocrinology and Metabolism, Neurosurgery, Pituitary, and the Clinical Endocrinology among others. She serves on the editorial board of Pituitary and as an ad hoc reviewer for many endocrine journals. Dr Nachtigall has been a presenter at national and international medical conferences, and she is currently an investigator on several clinical studies of acromegaly and pituitary tumors.

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Lowest cortisol levels found in women with overweight, mild obesity

Posted on July 18, 2015 by MaryO

Women with overweight and class I obesity appear to have the lowest cortisol levels, while more significant obesity appears to be associated with higher cortisol levels, according to recent findings.

In the cross-sectional study, Karen K. Miller, MD, of Massachusetts General Hospital, and colleagues evaluated 60 premenopausal women aged 18 to 45 years: 28 with overweight or obesity, 18 with anorexia nervosa and 21 healthy controls at normal weight. Overweight was defined as BMI 25 to 29.9 kg/m2, and obesity was classified as class I (30-34.9 kg/m2) and class II (35-39 kg/m2).

Anorexia nervosa was classified based on DSM-IV criteria, which includes extreme fear of weight gain, body image dysmorphia, weight that is 85% of ideal body weight and cessation of menstruation for 3 consecutive months. Participants were asked to collect 24-hour urine samples, in addition to 11 p.m. and 7 a.m. salivary samples within 1 week of an inpatient hospital visit. For each sample, researchers assessed creatinine clearance, and urinary free cortisol/creatinine clearance was calculated for each specimen to account for the decreased creatinine and filtered cortisol linked to anorexia nervosa.

During the inpatient visit, participants underwent placement of an IV catheter and fasting blood was sampled every 20 minutes from 8 p.m. to 8 a.m. Fasting cortisol and cortisol binding globulin concentrations were measured at 8 a.m. Participants were asked to take 5 g of oral dexamethasone every 6 hours for 48 hours to decrease endogenous disparities in cortisol levels.

The researchers found that with the exception of dexamethasone-suppression-CRH testing, all cortisol measures exhibited a U-shaped association with BMI, most notably urinary free cortisol/creatinine clearance (P = .0004) and mean overnight serum cortisol (P < .0001).

The lowest cortisol levels were seen in the overweight-class I obesity range, and these were also associated with visceral fat tissue and total fat mass. Participants with anorexia nervosa had higher mean cortisol levels than participants with overweight or obesity. Attenuated inverse relationships were seen between lean mass and some measures of cortisol, and most measures of cortisol were inversely related to posterior-anterior spine and total hip bone mineral density.

According to the researchers, these findings have not determined the precise nature of the relationship between cortisolemia, hypothalamic-pituitary-adrenal activation and adiposity.

“The [hypothalamic-pituitary-adrenal] axis activation associated with obesity and excess adiposity raises the question of whether hypercortisolemia contributes to increased adiposity in the setting of caloric excess, whether increased adiposity drives [hypothalamic-pituitary adrenal] activation, or whether the relationship between hypercortisolemia and adiposity is bidirectional,” the researchers wrote. – by Jennifer Byrne

Disclosure: The researchers report no relevant financial disclosures.

From http://www.healio.com/endocrinology/obesity/news/online/%7B73cac1c4-af30-4f24-89e3-86f50d05aaa2%7D/lowest-cortisol-levels-found-in-women-with-overweight-mild-obesity

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Cushing Disease: A Multidisciplinary Treatment Update

Posted on June 30, 2013 by MaryO

Share this info with your endo in case he/she missed it!

This activity is intended for endocrinologists, primary care physicians, nurses, nurse practitioners, and pharmacists.

The goal of this activity is to review the diagnosis and treatment of Cushing disease from a multidisciplinary perspective.

Upon completion of this activity, participants will be able to:

  1. Outline the rationale for a multidisciplinary approach to the diagnosis and treatment of patients with Cushing disease
  2. Review the safety and efficacy of current management strategies for patients with Cushing disease
  3. Describe the diagnostic workup for Cushing disease and the reasons why timely diagnosis and treatment are important

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As an organization accredited by the ACCME, Medscape, LLC, requires everyone who is in a position to control the content of an education activity to disclose all relevant financial relationships with any commercial interest. The ACCME defines “relevant financial relationships” as financial relationships in any amount, occurring within the past 12 months, including financial relationships of a spouse or life partner, that could create a conflict of interest.

Medscape, LLC, encourages Authors to identify investigational products or off-label uses of products regulated by the US Food and Drug Administration, at first mention and where appropriate in the content.

Laurence Katznelson, MD

Professor of Medicine and Neurosurgery, Stanford University; Medical Director, Pituitary Center, Stanford Hospital and Clinics, Stanford, California

Disclosure: Laurence Katznelson, MD, has disclosed the following relevant financial relationships:
Received grants for clinical research from: Corcept Therapeutics Inc.; Novartis Pharmaceuticals Corporation

Dr Katznelson does not intend to discuss off-label uses of drugs, mechanical devices, biologics, or diagnostics approved by the FDA for use in the United States.

Dr Katznelson does not intend to discuss investigational drugs, mechanical devices, biologics, or diagnostics not approved by the FDA for use in the United States.

Brooke Swearingen, MD

Associate Professor of Neurosurgery, Harvard Medical School; Associate Visiting Neurosurgeon, Massachusetts General Hospital, Boston, Massachusetts

Disclosure: Brooke Swearingen, MD, has disclosed the following relevant financial relationships: Served as an advisor or consultant for: Novartis Pharmaceuticals Corporation
Owns stock, stock options or bonds from: Novartis Pharmaceuticals Corporation; Pfizer Inc; Amgen Inc; Roche

Dr Swearingen does not intend to discuss off-label uses of drugs, mechanical devices, biologics, or diagnostics approved by the FDA for use in the United States.

Dr Swearingen does not intend to discuss investigational drugs, mechanical devices, biologics, or diagnostics not approved by the FDA for use in the United States.

Nicholas Tritos, MD

Assistant Professor of Medicine, Harvard Medical School; Staff, Neuroendocrine Unit, Massachusetts General Hospital, Boston, Massachusetts

Disclosure: Nicholas Tritos, MD, has disclosed the following relevant financial relationships:
Served as an advisor or consultant for: Corcept Therapeutics Inc; Pfizer Inc
Received grants for clinical research from: Pfizer Inc; Ipsen

Dr Tritos does intend to discuss off-label uses of drugs, mechanical devices, biologics, or diagnostics approved by the FDA for use in the United States.

Dr Tritos does not intend to discuss investigational drugs, mechanical devices, biologics, or diagnostics not approved by the FDA for use in the United States.

Susan Cornell, PharmD, CDE

Associate Professor, Pharmacy Practice, Midwestern University-Chicago, Downers Grove, Illinois; Clinical Pharmacist/Certified Diabetes Educator, DuPage Community Clinic, Wheaton, Illinois

Disclosure: Susan Cornell, PharmD, CDE, has disclosed the following relevant relationships:
Served as a speaker or member of a speakers bureau for: Johnson & Johnson Diabetes Institute

Dr Cornell does intend to discuss off-label uses of drugs, mechanical devices, biologics, or diagnostics approved by the FDA for use in the United States.

Dr Cornell does not intend to discuss investigational drugs, mechanical devices, biologics, or diagnostics not approved by the FDA for use in the United States.

Rita Pach, RN, MSN

Nurse, Johns Hopkins Pituitary Center, Baltimore, Maryland

Participation by Mrs Pach in the development of this product does not constitute or imply endorsement by the Johns Hopkins University or the Johns Hopkins Hospital and Health System.
Disclosure: Rita Pach, RN, has disclosed no relevant financial relationships.

Mrs Pach does not intend to discuss off-label uses of drugs, mechanical devices, biologics, or diagnostics approved by the FDA for use in the United States.

Mrs Pach does not intend to discuss investigational drugs, mechanical devices, biologics, or diagnostics not approved by the FDA for use in the United States.

Kristin M. Richardson

Group Scientific Director, Medscape, LLC

Disclosure: Kristin M. Richardson has disclosed no relevant financial relationships.

David Modrak, PhD

Freelance editor, Montville, New Jersey

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Nafeez Zawahir, MD

CME Clinical Director, Medscape, LLC

Disclosure: Nafeez Zawahir, MD, has disclosed no relevant financial relationships.

Laurie E. Scudder, DNP, NP

Nurse Planner, Continuing Professional Education Department, Medscape, LLC; Clinical Assistant Professor, School of Nursing and Allied Health, George Washington University, Washington, DC

Disclosure: Laurie E. Scudder, DNP, NP, has disclosed no relevant financial relationships.

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This activity is designed to be completed within the time designated on the title page; physicians should claim only those credits that reflect the time actually spent in the activity. To successfully earn credit, participants must complete the activity online during the valid credit period that is noted on the title page. To receive AMA PRA Category 1 Credit™, you must receive a minimum score of 70% on the post-test.

Follow these steps to earn CME/CE credit*:

  1. Read the target audience, learning objectives, and author disclosures.
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You may now view or print the certificate from your CME/CE Tracker. You may print the certificate but you cannot alter it. Credits will be tallied in your CME/CE Tracker and archived for 6 years; at any point within this time period you can print out the tally as well as the certificates from the CME/CE Tracker.

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Medical Apps, Part 2: FindER

Posted on November 18, 2010 by MaryO

smilez133 posted this on the message boards here

Massachusetts General Hospital Launches iPhone App to Locate Emergency Rooms

FindER Connects Users to the Most Complete Database of ERs in the U.S.

BOSTON—Researchers at Massachusetts General Hospital’s (MGH) Emergency Medicine Network (EMNet) announced today the launch of EMNet findER™, a free iPhone application designed to help users locate the closest emergency room to their current location, as well as provide directions and additional information with a touch of the screen. FindER uses the iPhone’s global positioning system to quickly direct patients to emergency rooms anywhere within the United States.

“FindER is designed to provide key information to people experiencing health emergencies,” says Carlos A. Camargo MD, of MGH’s Department of Emergency Medicine and EMNet director. “FindER uses information from EMNet’s own database of emergency departments, which is the most complete and accurate in the nation.”

Along with directions and general information, findER is designed for quick phone calls to both the care-center itself and in cases where necessary, 911 emergency services.

“EMNet researchers maintain a database of nearly 5,000 emergency rooms in the United States. Unlike a simple Google search where the results may include many emergency centers that have closed or moved, or even veterinary hospitals, findER’s results are based on an aggregation of emergency room listings from multiple sources that have been confirmed by researchers at EMNet,” says Camargo. “FindER is designed to help patients get to emergency rooms in the shortest amount of time.”

FindER is ideal for travelers, especially those suffering chronic medical conditions, or those traveling with friends or relatives with health problems. FindERis available now as a free download in the iTunes app store. Simply click this link or search “EMNet findER,” to download. For a short demonstration video, users can visit YouTube.

From http://www.massgeneral.org/about/pressrelease.aspx?id=1248

MaryONote: Just as info – the iTunes store said that there was nothing called FindER when I did a search. I found it only by typing EMNet findER. I have the app – looks great – and I hope I never need it again!

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