In Production: Quick and Cheap Bedside Test for Cortisol Uses Smartphone

Posted on October 17, 2015 by MaryO

An innovative method of measuring the stress hormone cortisol is being developed by researchers in Utah. Requiring just a simple kit and a smartphone to read results, this new approach should allow quick, affordable, and accurate testing of cortisol levels, enabling rapid diagnosis of adrenal diseases, the investigators say.

“A lab charges about $25 to $50 for a quantitative salivary cortisol test and has a turnaround time of days to a week,” said lead researcher Joel Ehrenkranz, MD, director of diabetes and endocrinology at Intermountain Medical Center, Murray, Utah. “This test, taken in a medical office or at home, will cost less than $5 and take less than 10 minutes,” he noted.

Dr. Ehrenkranz reported the details of the new test kit, developed at his institution, at ICE/ENDO 2014 week. He said he and his fellow researchers are now collating clinical data for a Food and Drug Administration (FDA) submission and hope to gain approval of the test as a class 2 medical device in the United States in 2015.

Chair of the session, Jeremy Tomlinson, MD, of University of Birmingham, United Kingdom, said the new approach employs “great technology and is an interesting innovation, but there are a few concerns. For example, how well will it perform against the state-of-the-art technique for measuring salivary cortisol, which is mass spectrometry — is it as sensitive?”

Also there is a possibility the immunoassay in the new test will cross react with another steroid hormone, prednisolone, that people might be taking for a whole range of inflammatory conditions, so “you would want to make sure it’s measuring what you want it to,” he noted.

And finally, there is the question of exactly how this would be used.

Cortisol levels are needed when conditions are suspected where too much or too little cortisol is produced, but the diagnosis for most of these doesn’t really need to be immediate, Dr. Tomlinson explained to Medscape Medical News. However, he conceded there might be a role for the assay in patients presenting to the emergency room or in developing nations.

No More Presumptive Treatment of Adrenal Insufficiency

At the meeting, Dr. Ehrenkranz said that adrenal diseases are commonly overlooked because current methods of measuring salivary cortisol require instrumentation and technical personnel and so are costly and unable to deliver timely results.

He noted also that a stint in the developing world convinced him that a simpler test was needed, so he and his colleagues set about developing an assay that would be inexpensive and easy to perform — they came up with disposable cortisol immunoassay strips containing a glass fiber element with colloidal gold-labeled murine anticortisol antibodies and a saliva collection pad.

The person being tested inserts a strawlike saliva collector under the tongue, which wicks the saliva to the immunoassay test strip housed in a cassette, which is then inserted into a reader in the device.

“The device…includes a case, a light pipe, and a lens and costs about a dollar to make. There is no battery power, and it’s unbreakable, passive, and reusable,” Dr Ehrenkranz said.

Because of the physical properties of the gold nanoparticles, a smartphone flash can illuminate and camera-image the color generated by the colloidal gold-labeled anticortisol antibodies, he explained.

The color subsequently generated is “read” by an app on the smartphone to give a cortisol reading, based on an algorithm derived from observed vs reference salivary cortisol values. The R value of this curve was 0.996 for salivary cortisol in the range of 0.012-3.0 µg/dL, Dr Ehrenkranz noted.

The new technology can therefore measure cortisol in a range sufficient to diagnose adrenal insufficiency and hypercortisolism and monitor physiologic variations in cortisol concentration, he said.

And the software is “operating-system agnostic,” he added, meaning the device can be used on all platforms, including iOS, Android, Windows, and BlackBerry, and it has a universal form factor that works with all smartphones.

“Measuring salivary cortisol at the point of care in 5 minutes using an inexpensive immunochromatographic assay, reader, and smartphone may obviate the need to presumptively treat patients for adrenal insufficiency and makes cortisol assays available to regions of the world that currently lack access to this diagnostic test,” he concluded.

Test of Use in Emergency Room, in Developing Countries

Dr. Tomlinson explained that diagnosis of Cushing’s syndrome — caused either by tumors of the pituitary gland producing too much ACTH or tumors of the adrenal gland producing too much cortisol — or alternatively, diagnosis of conditions where it’s thought too little cortisol is being secreted, such as Addison’s disease — an autoimmune process whereby the adrenal gland is destroyed — are not conditions “you necessarily have to diagnose in a few minutes by the bedside,” and therefore it is better to use the “gold standard” of diagnosis, mass spectrometry, in these cases.

But the new test “might be of use in determining whether people have enough of their own natural corticosteroid, in terms of deciding whether you need to give supplemental cortisol to people in an emergency situation,” he explained.

This could include patients presenting with suspected or underlying pituitary or adrenal disease or in people who have been on large doses of steroids who have then stopped taking them, so there will be a resulting suppression of their natural steroid production, he noted.

“That’s not an uncommon situation that we see in the emergency room. At the moment, if there’s suspicion, we might take a test but it takes a day or 2 to come back from the laboratory, and in the meantime we will give patients [presumptive] steroids. But you could do this test by the bedside,” he acknowledged.

And in developing countries, use of this test “is feasible, where cost comes into the equation and you might not have access to mass spectrometry; this could be an alternative and would help you to exclude or make these diagnoses,” he concluded.

This study was privately funded. Dr. Ehrenkranz and colleagues report no relevant financial relationships.

Joint Meeting of the International Society of Endocrinology and the Endocrine Society: ICE/ENDO 2014; June 24, 2014. Abstract OR48-2

From http://www.medscape.com/viewarticle/827580

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Roundup may cause potentially fatal ‘adrenal insufficiency’

Posted on August 22, 2015 by MaryO

IMPORTANT!  A new study finds that the Roundup herbicide disrupts the hormonal system of rats at low levels at which it’s meant to produce no adverse effects. By the same mechanism It may be causing the potentially fatal condition of ‘adrenal insufficiency’ in humans.

Monsanto’s glyphosate-based herbicide Roundup is an endocrine (hormone) disruptor in adult male rats, a new study shows.

The lowest dose tested of 10 mg/kg bw/d (bodyweight per day) was found to reduce levels of corticosterone, a steroid hormone produced in the adrenal glands. This was only one manifestation of a widespread disruption of adrenal function.

No other toxic effects were seen at that dose, so if endocrine disruption were not being specifically looked for, there would be no other signs that the dose was toxic. However a 2012 study detected a 35% testosterone down-regulation in rats at a concentration of 1 part per million.

In both studies endocrine disruption was detected at the lowest level tested for, so we don’t know if, when it comes to endocrine disruption, there are ‘safe’ lower doses of Roundup. In technical parlance, this means that no NOAEL (no observed adverse effect level), was found.

Significantly, the authors believe that the hormonal disruption could lead to the potentially fatal condition know as ‘adrenal insufficiency’ in humans, which causes fatigue, anorexia, sweating, anxiety, shaking, nausea, heart palpitations and weight loss.

“A progressive increase in its prevalence has been observed in humans, while a very few studies relating to xenobiotic exposure and adrenal insufficiency development have been reported”, they write. The increasing levels of Roundup in the environment and food could be “one of the possible mechanisms of adrenal insufficiency.”

How does this level relate to safety limits set by regulators?

One problem with trying to work out how the endocrine disruptive level of 10 mg/kg bw/d relates to how ‘safe’ levels are set by regulators.

The experiment looked at Roundup, the complete herbicide formulation as sold and used, but regulators only look at the long-term safety of glyphosate alone, the supposed active ingredient of Roundup.

Safe levels for chronic exposure to the Roundup herbicide product have never been tested or assessed for regulatory processes. This is a serious omission because Roundup has been shown in many tests to be more disruptive to hormones than glyphosate alone, thanks to the numerous other ingredients it contains to enhance its weed-killing properties.

Given this yawning data gap, let’s for a moment assume that the regulatory limits set for glyphosate alone can be used as a guide for the safe level of Roundup.

The endocrine disruptive level of Roundup found in the experiment, of 10 mg/kg bw/d, is is well above the acceptable daily intake (ADI) set for glyphosate in Europe (0.3 mg/kg bw/d) and the US (1.75 mg/kg bw/d). But this isn’t a reason to feel reassured, since with endocrine effects, low doses can be more disruptive than higher doses.

Another worrying factor is that 10 mg/kg bw/d is well below the NOAEL (no observed adverse effect level) for chronic toxicity of glyphosate: 500 mg/kg bw/d for chronic toxicity, according to the US EPA.

In other words, the level of 500 mg/kg bw/d – a massive 50 times higher than the level of Roundup found to be endocrine disruptive in the experiment – is deemed by US regulators not to cause chronic toxicity.

This experiment shows they are wrong by a long shot. They failed to see toxicity below that level because they failed to take endocrine disruptive effects from low doses into account and industry does not test for them.

Hormone disruption take place at or below ‘no adverse effects’ levels

Interestingly, the NOAEL for glyphosate in industry’s three-generation reproductive studies in rats was much lower than that for chronic toxicity – 30 mg/kg bw/day for adults and 10 mg/kg bw/day for offspring.

However the latter figures – at which no adverse effects should be apparent from glyphosate – are at the same as or higher level than the level of Roundup found to be endocrine disruptive in the new study.

These results therefore show that the reproductive processes of the rats are sensitive to low doses that are apparently not overtly toxic. This in turn suggests that the reproductive toxicity findings are due to endocrine disruptive effects.

Regulatory tests still do not include tests for endocrine disruption from low doses, in spite of the fact that scientists have known about the syndrome since the 1990s.

In the final section of the new study, the researchers discuss its implications. They note that the effects seen in the Roundup-treated rats to the Adrenocorticotropic hormone receptor (ACTH) were similar to adrenal insufficiency in humans:

“The findings that Roundup treatment down regulates endogenous ACTH, is similar to the condition known as adrenal insufficiency in humans. This condition manifests as fatigue, anorexia, sweating, anxiety, shaking, nausea, heart palpitations and weight loss. Chronic adrenal insufficiency could be fatal, if untreated.

“A progressive increase in its prevalence has been observed in humans, while a very few studies relating to xenobiotic exposure and adrenal insufficiency development have been reported. The present study describes one of the possible mechanisms of adrenal insufficiency due to Roundup and suggests more systematic studies, to investigate the area further. “

Claire Robinson of GMWatch commented: “Since no safe dose has been established for Roundup with regard to endocrine disrupting effects, it should be banned.”

 

 

The study:Analysis of endocrine disruption effect of Roundup in adrenal gland of male rats‘ is by Aparamita Pandey and Medhamurthy Rudraiah, and published in Toxicology Reports 2 (2015) pp.1075-1085 on open access.

This article was originally published by GMWatch. This version has been subject to some edits and additions by The Ecologist.

From http://www.theecologist.org/News/news_round_up/2985058/roundup_may_cause_potentially_fatal_adrenal_insufficiency.html

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BLA Instead of Second Pituitary Surgery

Posted on July 31, 2015 by MaryO

One of the problems that can arise with a BLA (bilateral adrenalectomy) instead of a repeat pituitary surgery for Cushing’s recurrence is Adrenal Insufficiency.  Another is Nelson’s Syndrome.

Nelson’s syndrome is a rare disorder that occurs in some patients with Cushing’s disease patients as a result of removing both adrenal glands. In Nelson’s syndrome, the pituitary tumor continues to grow and release the hormone ACTH.

This invasive tumor enlarges, often causing visual loss, pituitary failure and headaches. One key characteristic of Nelson’s disease is dark skin pigmentation, resulting from the skin pigment cells responding to the release of ACTH.

AnchorNelson’s Syndrome: Physiology

Nelson’s syndrome can develop as a result of a specific treatment (bilateral adrenalecomy) for the pituitary disease called Cushing’s disease. The harmful effects of Cushing’s disease are due to the excessive amount of the hormone cortisol produced by the adrenal glands.

To treat Cushing’s disease, your doctor may recommend removing the adrenal glands, during a procedure called a bilateral adrenalectomy. The procedure will stop cortisol production and provide relief. However, the procedure does not treat the actual tumor. Rapid growth of the pituitary tumor can occur.

In about 15-25 percent of patients who had a bilateral adrenalectomy, Nelson’ syndrome develops within one to four years.

Darkening of Skin Color - Nelson's Syndrome SymptomAnchor

Nelson’s Syndrome: Symptoms

The most obvious symptom of Nelson’s syndrome is the darkening of the skin color (hyperpigmentation).

Macroadenomas

Macroadenomas are large pituitary tumors. Large tumors can compress surrounding structures, primarily the normal pituitary gland and optic (visual) pathways, causing symptoms. The symptoms that result from the compression are independent of the effects of excess growth hormone secretion.
This may result in vision problems:

  • Vision loss. This occurs when macroadenomas grow upward into the brain cavity, compressing the optic chiasm.
  • A loss of the outer peripheral vision, called a bitemporal hemianopsia Bitemporal Hemianopsia - Symptom of Nelson's Syndrome
    • When severe, a patient can only see what is directly in front of them.
    • Many patients do not become aware of their visual loss until it is quite severe.
  • Other visual problems can include:
    • Loss of visual acuity (blurry vision), especially if the macroadenoma grows forward and compresses an optic nerve.
    • Colors not perceived as bright as usual

Pituitary Failure or Hypopituitarism

Increased compression of the normal gland can cause hormone insufficiency, called hypopituitarism. The symptoms depend upon which hormone is involved.

AnchorNelson’s Syndrome: Diagnosis

Most patients with Nelson’s syndrome have undergone a bilateral adrenalectomy for the treatment of Cushing’s disease

Diagnostic testing includes:

  • Hormone testing. Typically, the blood ACTH levels are very elevated. Learn more about hormone testing at the UCLA Pituitary Tumor Program.
  • MRI imaging. Magnetic resonance imaging (MRI) scan of the pituitary gland can detect the presence of an adenoma, a pituitary tumor.

AnchorNelson’s Syndrome: Treatment Options

Surgery for Nelson's Syndrome

Treating Nelson’s syndrome effectively requires an experienced team of experts. Specialists at the UCLA’s Pituitary Tumor Program have years of experience managing the complex coordination and care for treatment of Nelsons’ syndrome.

Treatment options include:

AnchorSurgery for Nelson’s Syndrome

Surgical removal of the pituitary adenoma is the ideal treatment; however, it is not always possible. Surgical removal requires advanced surgical approaches, including delicate procedures involving the cavernous sinus.

If surgery is required, typically the best procedure is through a nasal approach. Our neurosurgeons who specialize in pituitary tumor surgery are experts in the minimally invasive expanded endoscopic endonasal technique. This procedure removes the tumor while minimizing complications, hospital time and discomfort. This advanced technique requires specialized training and equipment.

Very large tumors that extend into the brain cavity may require opening the skull (craniotomy) to access the tumor. Our surgeons are also experts in the minimally invasive “key-hole” craniotomy, utilizing a small incision hidden in the eyebrow.

AnchorRadiation Therapy for Nelson’s Syndrome

Radiation Therapy for Nelson's SyndromeRadiation therapy can be effective in controlling the growth of the tumor. However, if you received radiation therapy in the past, additional radiation may not be safe.

Our Pituitary Tumor Program offers the latest in radiation therapy, including stereotactic radiosurgery. This approach delivers a highly focused dose of radiation to the tumor while leaving the surrounding brain structures unharmed (with the exception of the normal pituitary gland).

One consequence of radiation treatment is that it can cause delayed pituitary failure. This typically occurs several years after treatment, and continued long-term follow-up with an endocrinologist is important. You may require hormone replacement therapy.

Medical Therapy for Nelson’s Syndrome

Medication for Nelson's SyndromeMedical therapies for the treatment of Nelson’s syndrome are currently limited, but include:

  • Somatostatin-analogs (SSAs). These medications are typically used to treat acromegaly. A small number of Nelson’s syndrome patients may respond.
  • Cabergoline. This medication is typically used to treat prolactinomas; you may require a very high dose.
  • Temozolomide. This is a type of chemotherapy used to treat primary brain tumors called glioblastoma.

If you require medication to treat Nelson’s syndrome, our endocrinologists will monitor you closely.

From http://pituitary.ucla.edu/body.cfm?id=53

 

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Myth: “Vitamins and Natural Remedies can cure/heal Cushing’s”

Posted on July 2, 2015 by MaryO

myth-busted

 

More from Dr. Karen Thames:

Myth: “Vitamins and Natural Remedies can cure/heal Cushing’s”

Fact: Do you know how many people have told me that if I just “juice”, I will be cured from Cushing’s or Adrenal Insufficiency?! I appreciate the sentiment, but the sad reality is that no amount of juicing and no vitamin will cure Cushing’s. Some Cushing’s patients do take vitamins, some do eat raw food or paleo diets, and some even juice. However, this is just a lifestyle choice and not an attempt to cure Cushing’s. I must admit that when you have such a dreadful disease, you do sometimes take desperate measures to heal yourself. Perhaps, doing acupuncture or some other form of natural healing technique seems attractive at times. Take it from a person who has had acupuncture, seen many natural doctors, juiced, took vitamins, ate a raw food diet, and yes, I EVEN did a series of colonics! If you have ever had colonics, you know that it brings new meaning to the phrase, “no pain, no gain!”

Seriously, this is all before I knew I had Cushing’s. I watched as every person who administered the different kinds of treatment scratched their heads as I continued to gain weight, eventually at a rate of 5 pounds per week! They couldn’t believe that I was actually still gaining weight. Their natural and not surprising response, of course, was to project blame onto me. “Karen, there is NO way you are following protocol! You MUST be lying on your food log!” What we all didn’t realize is that I was suffering from a life-threatening illness called Cushing’s Disease that caused morbid obesity in me and that none of those “remedies” would EVER work!

Now, I have already been in Twitter wars over this topic. Someone tried to tell me that a raw food diet will “cure Cushing’s” and then she told me that I am “ignorant and in denial”! She proceeded to tell me that her daughter, though she had surgery to treat Cushing’s, was REALLY cured because of changing her diet. She also told me that the daughter, who had her Adrenal Glands removed, didn’t need steroids. Listen folks, this is VERY dangerous! I have no adrenal glands and I NEED steroids! Cortisol is life sustaining and you will die without it! I fully expect that someone will argue this point until the cows come home. It doesn’t matter. It won’t change the facts. Cushing’s is caused by excess cortisol in the body. The ONLY treatment is to target the source of the excess cortisol (i.e.brain tumor, adrenal tumor, ectopic tumor, or prolonged steroid use for another disease). Targeting the source is the first line of treatment. Cushing’s Syndrome/Disease will lead to death if not treated properly! #BattlegroundDiagnosis

Disclaimer: I am not a medical doctor. Please seek the advice of a medical professional if you have questions or need further assistance.

If you want to follow our documentary, please go to http://www.Facebook.com/Hug.A.Cushie

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Adrenal insufficiency – how to spot this rare disease and how to treat it

Posted on June 6, 2015 by MaryO

adrenal-glandsAddison’s disease, or adrenal insufficiency, is a rare hormonal disorder of the adrenal glands that affects around 8,400 people in the UK.

The adrenal glands are about the size of a pea and perched on top of the kidneys, and affect the body’s production of the hormones cortisol and sometimes aldosterone.

When someone suffers from adrenal insufficiency, those glands aren’t producing a sufficient amount of these hormones. This can have a detrimental effect on someone’s health and well-being. But because the symptoms are similar to a host of other conditions, Addison’s disease can prove tough to isolate.

What to look out for

According to advice provided by the NHS, the symptoms in the early stages of Addison’s disease, which affects both men and women, are gradual and easy to misread as they’re similar to many other conditions.

People can experience severe fatigue, muscle weakness, low moods, loss of appetite, unintentional weight loss, low blood pressure, nausea, vomiting and salt craving.

“Symptoms are often misread or ignored until a relatively minor infection leads to an abnormally long convalescence, which prompts an investigation,” says Professor Wiebke Arlt from the Centre for Endocrinology, Diabetes & Metabolism at the University of Birmingham.

Life-threatening condition

If Addison’s disease is left untreated, the level of hormones produced by the adrenal gland will gradually decrease in the body. This will cause symptoms to get progressively worse and eventually lead to a potentially life-threatening situation called an adrenal, or Addisonian, crisis. Signs include severe dehydration; pale, cold, clammy skin; rapid, shallow breathing; extreme sleepiness; severe vomiting and diarrhoea. If left untreated, it can prove fatal, so the patient should be admitted to hospital as an emergency.

Back to basics

To understand the disorder, it’s important to get to grips with the basics and that means understanding what the adrenal glands are – and so to the science.

“Adrenal glands have an inner core (known as the medulla) surrounded by an outer shell (known as the cortex) ,” explains Arlt.
The inner medulla produces adrenaline, the ‘fight or flight’ stress hormone. While the absence of this does not cause the disease, the cortex is more critical.

“It produces the steroid hormones that are essential for life: cortisol and aldosterone,” he adds.

“Cortisol mobilises nutrients, enables the body to fight inflammation, stimulates the liver to produce blood sugar and also helps control the amount of water in the body. Aldosterone, meanwhile, regulates the salt and water levels, which can affect blood volume and pressure.”

Why does it happen?

The disorder occurs if the adrenal glands are destroyed, absent or unable to function and failure of the glands themselves is known as primary adrenal insufficiency.

“It’s most often caused by autoimmune disease where the body’s immune system mounts an attack against its own adrenal glands,” explains Arlt.

“However it can also be caused by infection, most importantly by tuberculosis and sometimes by both adrenal glands being surgically removed.”

The pituitary effect

Another important cause is any disease affecting the pituitary gland, which is located behind the nose at the bottom of the brain.
“The pituitary is the master gland that tells the other glands in the body what to do,” continues Arlt.

“The pituitary gland produces a hormone called ACTH (adrenocorticotropic hormone to give it its full name), which travels in the blood stream to the adrenal glands.

“Here it acts as a signal, causing the adrenal glands to produce more cortisol. If the pituitary gland stops making ACTH, [then] cortisol production by the adrenals is no longer controlled properly and a condition called secondary adrenal insufficiency arises.”

But in most cases, aldosterone is still produced, which means that people suffering from secondary adrenal insufficiency have fewer problems than those with primary adrenal insufficiency.

Determining a diagnosis

Due to the ambiguous nature of the symptoms, a Short Synacthen Test (SST) needs to be performed in order to diagnose adrenal insufficiency.

“This measures the ability of the adrenal glands to produce cortisol in response to (the pituitary hormone) ACTH,” says Arlt. “When carrying out this test, a baseline blood sample is drawn before injecting a dose of ACTH, followed by drawing a second blood sample 30 to 60 minutes later. Failing adrenal glands will not be able to produce a certain level of cortisol.”

Getting treatment

If someone has been conclusively diagnosed with adrenal insufficiency, they should receive adrenal hormone replacement therapy as advised by an endocrinologist, a doctor specialising in hormone-related diseases.

“A normal adrenal gland does not need supplements to function properly and there is no recognised medical condition called ‘adrenal fatigue’,” warns Arlt.

“Either the adrenal gland is fine and needs no treatment or there is adrenal insufficiency due to adrenal or pituitary failure.”

So if in doubt, don’t self-diagnose but book an appointment with your GP.

For more information, visit Addison’s Disease Self-Help Group (www.addisons.org.uk) or Pituitary Foundation.

From https://home.bt.com/lifestyle/wellbeing/adrenal-insufficiency-how-to-spot-this-rare-disease-and-how-to-treat-it-11363985141306

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