Pituitary tumor size not definitive for Cushing’s

Posted on July 12, 2013 by MaryO

By: SHERRY BOSCHERT, Family Practice News Digital Network

SAN FRANCISCO – The size of a pituitary tumor on magnetic resonance imaging in a patient with ACTH-dependent Cushing’s syndrome can’t differentiate between etiologies, but combining that information with biochemical test results could help avoid costly and difficult inferior petrosal sinus sampling in some patients, a study of 131 cases suggests.

If MRI shows a pituitary tumor larger than 6 mm in size, the finding is 40% sensitive and 96% specific for a diagnosis of Cushing’s disease as the cause of adrenocorticotropic hormone (ACTH)-dependent Cushing’s syndrome, and additional information from biochemical testing may help further differentiate this from ectopic ACTH secretion, Dr. Divya Yogi-Morren and her associates reported at the Endocrine Society’s Annual Meeting.

Pituitary tumors were seen on MRI in 6 of 26 patients with ectopic ACTH secretion (23%) and 73 of 105 patients with Cushing’s disease (69%), with mean measurements of 4.5 mm in the ectopic ACTH secretion group and 8 mm in the Cushing’s disease group. All but one tumor in the ectopic ACTH secretion group were 6 mm or smaller in diameter, but one was 14 mm.

Because pituitary “incidentalomas” as large as 14 mm can be seen in patients with ectopic ACTH secretion, the presence of a pituitary tumor can’t definitively discriminate between ectopic ACTH secretion and Cushing’s disease, said Dr. Yogi-Morren, a fellow at the Cleveland Clinic.

That finding contradicts part of a 2003 consensus statement that said the presence of a focal pituitary lesion larger than 6 mm on MRI could provide a definitive diagnosis of Cushing’s disease, with no further evaluation needed in patients who have a classic clinical presentation and dynamic biochemical testing results that are compatible with a pituitary etiology (J. Clin. Endocrinol. Metab. 2003;88:5593-602). The 6-mm cutoff, said Dr. Yogi-Morren, came from an earlier study reporting that 10% of 100 normal, healthy adults had focal pituitary abnormalities on MRI ranging from 3 to 6 mm in diameter that were consistent with a diagnosis of asymptomatic pituitary adenomas (Ann. Intern. Med. 1994;120:817-20).

A traditional workup of a patient with ACTH-dependent Cushing’s syndrome might include a clinical history, biochemical testing, neuroimaging, and an inferior petrosal sinus sampling (IPSS). Biochemical testing typically includes tests for hypokalemia, measurement of cortisol and ACTH levels, a high-dose dexamethasone suppression test, and a corticotropin-releasing hormone (CRH) stimulation test. Although IPSS is the gold standard for differentiating between the two etiologies, it is expensive and technically difficult, especially in institutions that don’t regularly do the procedure, so it would be desirable to avoid IPSS if it’s not needed in a subset of patients, Dr. Yogi-Morren said.

The investigators reviewed charts from two centers (the Cleveland Clinic and the M.D. Anderson Cancer Center, Houston) for patients with ACTH-dependent Cushing’s syndrome seen during 2000-2012.

ACTH levels were significantly different between groups, averaging 162 pg/mL (range, 58-671 pg/mL) in patients with ectopic ACTH secretion, compared with a mean 71 pg/mL in patients with Cushing’s disease (range, 16-209 pg/mL), she reported. Although there was some overlap between groups in the range of ACTH levels, all patients with an ACTH level higher than 210 pg/mL had ectopic ACTH secretion.

Median serum potassium levels at baseline were 2.9 mmol/L in the ectopic ACTH secretion group and 3.8 mmol/L in the Cushing’s disease group, a significant difference. Again, there was some overlap between groups in the range of potassium levels, but all patients with a baseline potassium level lower than 2.7 mmol/L had ectopic ACTH secretion, she said.

Among patients who underwent a high-dose dexamethasone suppression test, cortisol levels decreased by less than 50% in 88% of patients with ectopic ACTH secretion and in 26% of patients with Cushing’s disease.

Most patients did not undergo a standardized, formal CRH stimulation test, so investigators extracted the ACTH response to CRH in peripheral plasma during the IPSS test. As expected, they found a significantly higher percent increase in ACTH in response to CRH during IPSS in the Cushing’s disease group, ranging up to more than a 1,000% increase. In the ectopic ACTH secretion group, 40% of patients did have an ACTH increase greater than 50%, ranging as high as a 200%-300% increase in ACTH in a couple of patients.

“Although there was some overlap in the biochemical testing, it is possible that it provides some additional proof to differentiate between ectopic ACTH secretion and Cushing’s disease,” Dr. Yogi-Morren said.

In the ectopic ACTH secretion group, the source of the secretion remained occult in seven patients. The most common identifiable cause was a bronchial carcinoid tumor, in six patients. Three patients each had small cell lung cancer, a thymic carcinoid tumor, or a pancreatic neuroendocrine tumor. One patient each had a bladder neuroendocrine tumor, ovarian endometrioid cancer, medullary thyroid cancer, or a metastatic neuroendocrine tumor from an unknown primary cancer.

The ectopic ACTH secretion group had a median age of 41 years and was 63% female. The Cushing’s disease group had a median age of 46 years and was 76% female.

Dr. Yogi-Morren reported having no financial disclosures.

sboschert@frontlinemedcom.com

On Twitter @sherryboschert

From Famiiy Practice News

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Looking at your Doctor’s Notes?

Posted on July 6, 2013 by MaryO
The anterior pituitary is the anterior, glandu...

The anterior pituitary is the anterior, glandular lobe of the pituitary gland. (Photo credit: Wikipedia)

Acronyms or abbreviations for “Pituitary”

PIT: pituitary
P: Pituitary
PI: pituitary
PT: pituitary
PG: pituitary gland
PIT: pituitary gland
PS: pituitary stalk
NP: normal pituitary
PT: pituitary tumors
PV: pituitary venous
SP: sellar pituitary
PA: pituitary-adrenal
PA: pituitary adenoma
PEX: Pituitary Extract
ap: anterior pituitary
PA: pituitary adenomas
PA: pituitary apoplexy
PAs: pituitary adenomas
PP: posterior pituitary
oPRL: ovine pituitary PRL
phTSH: pituitary human TSH
Pitx1: pituitary homeobox 1
Ptx1: pituitary homeobox 1
BPG: brain-pituitary-gonad
HP: hypothalamo-pituitary
H-P: hypothalamic-pituitary
HP: hypothalamic-pituitary
HP: hypothalamus/pituitary
PAA: pituitary-adrenal axis
A.P.L.: anterior pituitary like
AP: anterior pituitary lobe
pgh: pituitary growth hormone
AP: anterior pituitary gland
APG: anterior pituitary gland
BPE: bovine pituitary extract
EPE: equine pituitary extract
PA: pituitary-adrenocortical
PP: posterior pituitary lobe
AP: Anterior pituitary glands

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From Bangladesh ~ Pituitary Adenoma: When headache is a headache

Posted on June 29, 2013 by MaryO
Location of the pituitary gland in the human brain

Location of the pituitary gland in the human brain (Photo credit: Wikipedia)

“Got headache? Take a paracetamol and get relieved in a short while.”

This is common practice in our country. Almost everyone has had a headache, but rarely headache becomes a headache in our lives. Not all headaches require doctor’s attention but sometimes it represent the tip of a huge iceberg.

Mr Shafiul Islam, 38 years of age, an active male developed a gradual onset of headache, which worsened at the morning, followed by vomiting. He visited a general practitioner and took prescribed medicines, but that failed to cure the symptoms. Rather he was gradually experiencing loss of outer side vision of both eyes.

When he revisited a doctor and was advised for MRI of brain he was diagnosed with a core of “Pituitary Macrodenoma,” a tumor of a hormone producing gland of brain. Then Shafiul was referred to Neurosurgeon of Comfort Nursing home Assistant Professor Dr Moshiur Rahman, who decided to perform operation for removal of the tumor after the initial evaluation.

The pituitary gland is an endocrine gland about the size of a pea and weighing 5 grams (0.18 oz) in humans. It is a protrusion off the bottom of the hypothalamus at the base of the brain, and rests in a small, bony cavity (sella turcica). The pituitary gland secretes nine hormones. A pituitary adenoma is a slow growing and less harmful tumor arising from cells in the pituitary gland. Because they originate from cells in the pituitary gland, which is the master hormone gland, they often cause problems related to hormonal dysfunction.

Some pituitary tumors result in excessive production and over-secretion of hormones, which can result in a variety of syndromes. A large proportion of these tumors, however, do not produce any functional hormones, but instead grow to a size where they cause symptoms because they compress surrounding structures. For these reasons, larger pituitary tumors (called macroadenomas) often present with headache, visual loss and pituitary gland dysfunction.

The specific cause of pituitary adenoma development is unknown, although they are likely to be caused in part by random mutations in cells of the pituitary gland. Surgery is the first line of treatment for many symptomatic pituitary tumors in patients that are good surgical candidates, especially in patients with nonfunctioning macroadenomas.

Dr Moshiur approached the tumor by entering through nasal opening with the help of ENT specialist Associate Professor Dr Sajol Ashfaq, under general aenesthesia (fully unconscious) done by Aenesthesiologist Associate Professor Dr Shamsul Alam. After elevation of a thin membrane over the nasal partition and breaking a bone in the base of the skull they got a vision of the tumor through endoscope. After that, the tumor was removed through the nose. After three days of post-operative care, the patient was discharged. All his symptoms, headache, vomiting and poor vision improved dramatically and he got back to his normal life.

Dr Moshiur Rahman said: “The surgical approach for removing pituitary tumours is usually an endonasal (through the nostril) transsphenoidal (through the sphenoid sinus) approach. This procedure is Endoscopic Transnasal Transphenoidal Pituitary Adenomectomy, which is a safe, minimally invasive but effective, modern treatment option for Pituitary Adenoma, with few side effects and short post-operative hospital stay. This latest technology is being practiced in some centres of the capital for last few years.”

He also said, he performed three operations before successfully with no long term adverse effect. He also paid gratefulness to Associate Professor Dr Sajol Ashfaq and Associate Professor Dr Shamsul Alam for their sincere and great effort.

Once, people had to go outside of the country for this operation. Nowadays, this operation is often performed by many neurosurgeons of the capital. A few centres have also developed to provide these facilities of operation. People can take this oppurtunity confidently by choosing a competent surgical team.

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Endoscopic transsphenoidal pituitary surgery: a good and safe primary treatment option for Cushings disease, even in case of macroadenomas or invasive adenomas.

Posted on June 24, 2013 by MaryO

Abstract – European Journal of Endocrinology, 06/24/2013  Clinical Article

Wagenmakers MA et al. – This study aims to gain insight in the role of endoscopic TS as a primary treatment option for CD, especially in patients with MRI negative CD and (invasive) macroadenomas.

The data suggest that in patients with non–invasive and invasive macroadenomas the endoscopic technique of TS should be the technique of choice as remission rates seem to be higher than remission rates reported for microscopic TS, although no comparative study has been performed.

Get this article here.

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Texas Medical Center Announces Brain, Spine And Pituitary Tumor Center

Posted on May 17, 2013 by MaryO
Aerial of the Texas Medical Center, an area in...

Aerial of the Texas Medical Center, an area in the Southeast Houston district. (Photo credit: Wikipedia)

The Texas Medical Center announced that a brain and pituitary tumor treatment center will be established at the Methodist Hospital.

According to a press release from the medical center, “Brain, spine and pituitary tumor patients will soon have access to a new clinic at The Methodist Hospital, thanks to a $10 million gift from a Houston oil executive. The Kenneth R. Peak Brain and Pituitary Tumor Treatment Center will offer treatments customized to each patient. Researchers will study each tumor and tailor treatments to fit the tumors genetic profile using a relatively new approach to medicine called personalized medicine.”

The Texas Medical Center is located at 2450 Holcombe Blvd.

For more information, call 713-791-6161 or email or visitwww.texasmedicalcenter.org/.

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