Classifying hypertension

Posted on May 19, 2013 by MaryO

HYPERTENSION is classified into two categories according to its cause: essential and secondary.

The vast majority of patients have essential or primary hypertension, while only about 5-10% of patients have secondary hypertension, which are mainly caused by kidney and hormonal conditions like renal artery stenosis, hyperthyroidism, Cushing’s syndrome, and even pregnancy, among others.

The exact cause of essential hypertension is still unknown, although it is certainly the result of a combination of factors, including increasing age, having relatives with high blood pressure (ie family history), a sedentary lifestyle, a poor diet with too much salt, drinking too much alcohol, smoking and too much stress.

Says Malaysian Society of Hypertension president and Universiti Malaya Department of Primary Care Medicine senior consultant Prof Datin Dr Chia Yook Chin: “Each factor increases blood pressure by just a little, but when you add them all together little by little, it raises it by quite a lot.”

Despite not knowing the root cause of hypertension, it has been established that there is overstimulation of the sympathetic nerves in people with this condition.

This in turn increases the secretion of certain hormones involved in the regulation of sodium and fluids in the body, called renin, angiotensin, and aldosterone.

The amount of salt and water in our body affects our blood pressure – the more salt and water present, the higher our blood pressure.

These two elements are regulated by our kidneys through the three hormones mentioned above, which are produced by the adrenal glands located on top of the kidneys.

The overstimulation of the sympathetic nerves also results in increased vascular tone, which causes our arteries to become constricted, thus, also raising blood pressure.

From The Star

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MR Brain Spectroscopy Detects Damage In The Hippocampus Of Patients Exposed To Excess Cortisol

Posted on May 8, 2013 by MaryO

New research shows that patients who are “biochemically cured” of Cushing’s syndrome have levels of brain metabolites which are associated with neural damage. This will have implications for treatment of Cushing’s patients, but might also suggest that patients using high levels of glucocorticoid drugs may suffer similar long-term problems. The work was presented yesterday at the European Congress of Endocrinology in Copenhagen.

Cushing’s syndrome is an endocrine disease causing an overproduction of the stress hormone cortisol. Surgery and medical treatment can normalise cortisol levels, however recently it has been shown that “biochemically cured” patients continue to have memory problems. Now for the first time a group of researchers from the Sant Pau Hospital in Barcelona has scanned the brains of patients who had suffered from Cushing’s syndrome and found that they exhibit changed levels of brain metabolites, which are associated with memory and cognitive impairments. This finding may also have clinical implications for otherwise healthy patients who take high levels of glucocorticoid drugs for inflammatory, rheumatoid diseases, allergies and probably everyday chronic stress.

Cortisol (a glucocorticoid hormone), is naturally produced by the adrenal glands in response to stress. Long term exposure to high levels of cortisol is known to be associated with a range of cognitive impairments – this is true for Cushing’s syndrome patients, and probably would be also for those who take glucocorticoid drugs.

Eugenia Resmini and colleagues, working at the Centre for Biomedical Research on Rare Diseases (CIBERER), Sant Pau hospital in Barcelona, used proton magnetic resonance spectroscopy to measure a series of metabolites in the hippocampus of the brains of 18 patients who had been treated for Cushing’s syndrome, and compared these results to 18 healthy control subjects. They found that levels of the metabolite NAA (NAcetyl-aspartate) were significantly lower in the Cushing’s patients, indicating neural dysfunction, whereas Glx (Glutamate +Glutamine) levels were higher, suggesting that glial cells were proliferating as a repair mechanism.

According to Dr Resmini MD, PhD, Endocrinologist at the Centre for Biomedical Research on Rare Diseases (CIBERER), Hospital de Sant Pau, Barcelona, Spain:

“Patients with Cushing’s syndrome are exposed to abnormally high levels of glucocorticoids, which is associated with a wide range of cognitive impairments, as well as loss of brain volume. We studied the hippocampus, which is a critical area for learning and memory and, as it is rich in glucocorticoid receptors, is especially vulnerable to glucocorticoid overexposure. Cushing’s syndrome patients with severe memory impairment are known to have a smaller hippocampus. We have now found abnormal levels of metabolites in the hippocampi of Cushing’s patients with normal hippocampal volumes, indicating that these are early markers of glucocorticoid neurotoxicity, which would precede hippocampal volume reduction.

“Identifying these metabolites as a marker would be a way of allowing earlier diagnosis and treatment of cognitive impairments. This may also allow us to monitor patients taking glucocorticoid drugs, which have potentially damaging side effects. On the other hand, the fact that these markers are still present in Cushing’s patients after being “biochemically cured”, may show that once cognition has been damaged in Cushing’s syndrome, it may not be fully reversible. For this reason an earlier diagnosis of the disease and a rapid normalization of hypercortisolism would avoid the progression of hippocampal damage and of memory problems”.

From Medical News Today

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Salk scientists find potential therapeutic target for Cushing’s disease

Posted on May 7, 2013 by MaryO

LA JOLLA, CA—Scientists at the Salk Institute for Biological Studies have identified a protein that drives the formation of pituitary tumors in Cushing’s disease, a development that may give clinicians a therapeutic target to treat this potentially life-threatening disorder.

The protein, called TR4 (testicular orphan nuclear receptor 4), is one of the human body’s 48 nuclear receptors, a class of proteins found in cells that are responsible for sensing hormones and, in response, regulating the expression of specific genes. Using a genome scan, the Salk team discovered that TR4 regulates a gene that produces adrenocorticotropic hormone (ACTH), which is overproduced by pituitary tumors in Cushing’s disease (CD). The findings were published in the May 6 early online edition of Proceedings of the National Academy of Sciences.

“We were surprised by the scan, as TR4 and ACTH were not known to be functionally linked,” says senior author Ronald M. Evans, a professor in Salk’s Gene Expression Laboratory and a lead researcher in the Institute’s Helmsley Center for Genomic Medicine. “TR4 is driving the growth and overexpression of ACTH. Targeting this pathway could therapeutically benefit treatment of CD.”

In their study, Evans and his colleagues discovered that forced overexpression of TR4 in both human and mouse cells increased production of ACTH, cellular proliferation and tumor invasion rates. All of these events were reversed when TR4 expression was reduced.

First described more than 80 years ago, Cushing’s disease is a rare disorder that is caused by pituitary tumors or excess growth of the pituitary gland located at the base of the brain. People with CD have too much ACTH, which stimulates the production and release of cortisol, a hormone that is normally produced during stressful situations.

While these pituitary tumors are almost always benign, they result in excess ACTH and cortisol secretion, which can result in various disabling symptoms, including diabetes, hypertension, osteoporosis, obesity and psychological disturbances. Surgical removal of the tumors is the first-line therapy, with remission rates of approximately 80 percent; however, the disease recurs in up to 25 percent of cases.

Drugs such as cabergoline, which is used to treat certain pituitary tumors, alone or in combination with ketoconazole, a drug normally used to treat fungal infections, have been shown to be effective in some patients with Cushing’s disease. More recently, mefipristone-best known as the abortion pill RU-486-was approved by the FDA to treat CD. Despite these advances in medical therapy, the Salk scientists say additional therapeutic approaches are needed for CD.

“Pituitary tumors are extremely difficult to control,” says Michael Downes, a senior staff scientist in the Gene Expression Laboratory and a co-author of the study. “To control them, you have to kill cells in the pituitary gland that are proliferating, which could prevent the production of a vital hormone.”

Previous studies have found that, by itself, TR4 is a natural target for other signaling molecules in the pituitary. Small-molecule inhibitors that have been developed for other cancers could be potentially applied to disrupt this signaling cascade. “Our discovery,” says Evans, a Howard Hughes Medical Institute investigator and holder of the March of Dimes Chair in Molecular and Developmental Biology, “might lead clinicians to an existing drug that could be used to treat Cushing’s disease.”

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Adrenal Insufficiency – Female Patient found Unconscious with Syringe Nearby

Posted on October 31, 2012 by MaryO

Crew’s misdiagnosis of drug overdose could have cost patient her life

Kimberly Doran | From the October 2012 Issue |

 

A call comes in to 9-1-1 dispatch. “Help” is all that’s spoken before the operator hears the phone hit the floor. The 9-1-1 dispatcher calls back only to get a busy signal. Police and EMS are dispatched for a well-being call.

On arrival, the front door is found to be slightly ajar. The crew knocks, but there’s no reply. They find a young woman  lying on the floor, naked, and in a pool of vomit. A syringe with an unknown substance is on the ground nearby. Suspecting a drug overdose, the EMS crew begins treating the patient for this condition. The patient is unconscious with emesis around her head and face. Her vital signs are blood pressure 60/45, heart rate of 130 bpm and respiratory rate of 10.

The patient shows no signs of waking. The crew clears the airway and administers oxygen. An IV is established, and the patient is readied for transport. As the crew leaves the scene, one of the medics turns to shut the door and sees a vial under a chair. He retrieves it and notes that the label says Solu-Cortef (a glucocorticoid). He bags it for the emergency department (ED). Following his instinct, he looks around the area for medications and finds two bottles. One is labeled dexamethosone and the other is labeled fludrocortisone. He takes his findings and rushes out the door into the awaiting ambulance. During transport, the patient continues to deteriorate.

The medic administers 0.5 mg of narcan and a 500mL bolus of normal saline with no response. He radios ahead to let the hospital know that they’re en route. Now questioning the original diagnosis of drug overdose, he reports the medications he found on the scene in hopes it will help the receiving physician determine the cause of the patient’s condition.

Arrival at the ED
On arrival to the ED, the medic hands over the loaded syringe containing 2mL of unidentified solution, as well as the empty vial of Solu-Cortef and the bottles of dexamethosone and fludrocortisones.

As the crew arrives at the hospital, the ED physician meets the crew and informs them that he’s familiar with the medications. He says they’re all used for people who have various forms of adrenal insufficiency (AI). The symptoms seen in this patient coincide with life-threatening adrenal crisis. The physician administers 100 mg of Solu-Cortef via IV and within minutes, the patient rouses. In 30 minutes, she can explain what happened in the desperate moments before her crisis.

Adrenal Insufficiency
Adrenal Insufficiency (AI) is a life-threatening in which the body is unable to produce enough cortisol to sustain life. In other words, their adrenal cortex is “asleep.” People suffering from AI take daily cortisol/glucocorticoid steroid replacement because whatever adrenal function is depleted. These patients are glucocorticoid dependent. In times of injury, dehydration, illness or surgery, they require an injection of Solu-Cortef. Solu-Cortef contains both glucocorticoid and mineralocorticoid properties, helping the body to compensate during a stress event.

The adrenal medulla (inside of the adrenal gland) secretes epinephrine and norepinephrine. The adrenal cortex (outer layer of the adrenal gland) secretes cortisol and aldosterone. Cortisol, a glucocorticoid, is often called the “stress” hormone. One of cortisol’s functions is elevating blood glucose levels in times of stress. It also functions as a mediator for several inflammatory pathways.

Absence of cortisol can result in hypotension, hypoglycemia and death. Aldosterone, a mineralocorticoid, is responsible for the regulation of sodium and water. Absence of aldosterone can result in hypotension and electrolyte imbalance. AI in the prehospital setting may be difficult to recognize in the absence of a good history, including medications, to point providers in the cause of the problem. Two life-threatening conditions associated with AI include hypotension and hypoglycemia.

If not managed, these two conditions are life threatening. Prehospital treatment should include management of the patient’s airway, vascular access and fluid resuscitation. If blood glucose levels are low, the patient should receive dextrose per local protocol. It’s important to complete a thorough physical assessment and obtain a complete patient history before treating patients with this condition. Providers may confuse patients having an adrenal crisis with drug overdose patients because of their similar symptoms. Although AI is rare, it should still be considered as a potential diagnosis.

Authors’ noteParts of the above case are taken from a true story. However, the difference is that there was no syringe on the floor, no vial under the chair and no one found the medications. The patient was treated with charcoal and diagnosed as a drug-overdose patient. She likely would have died, but her mother charged into the ED and expressed the need for Solu-Cortef. Security was called, but luckily someone listened, researched and called the patient’s treating physician. The patient was treated and released. 

From Journal of Emergency Medical Services

 

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Interview with Laura (LauraNG) October 29 at 9:00PM eastern

Posted on October 19, 2009 by MaryO

October 29 at 9:00PM eastern, Interview with Laura (LauraNG)

This interview will take place at 9:00 PM eastern – please note later time!

Laura has been struggling since 2007 with various odd things happening to her body.

In March of 2009 she was diagnosed with Hashimoto’s Disease and Hypothyroid.

Her bio contains a long list of symptoms she has and she has been misdiagnosed with Obesity, Diabetes, Kidney stones, Depression, MS, Manic/Depressive, TIA, Anxiety – stress, Not exercising enough, Not eating properly, Abusive relationship (due to bruising).

In responding to the email confirming this interview Laura wrote:

“When I started reading the bio’s of people like myself, I started to cry tears of relief that what I may have, is actually ONE real thing. I cannot tell you how happy I was to find your website and I think it is wonderful that so many people who truly understand how frustrating it is to think we are alone, are willing to put themselves out there as beacons of hope for the rest of us. I felt so strongly, that I wanted to add my bio and offer myself for interview. If I can help one person feel a little calmer while they go through this process, I am more than willing. I don’t know if I have Cushing’s but if I do, it is important to me to reach out to others because the attacks coming from the physical and mental side of this illness, deserve to be exposed and recognized. Even though I am feeling a bit humiliated, reclusive and embarassed because of what it is doing to me.”

Read Laura’s entire bio at http://www.cushie.info/index.php?option=com_content&view=article&id=413:laura-undiagnosed-bio&catid=32:bios&Itemid=68

You can listen live at http://www.blogtalkradio.com/CushingsHelp The archives are usually up about 30 minutes after the end of the show and in our podcast area of iTunes by Friday.

The Call-In number for questions or comments is (646) 200-0162.

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