Energetic Balancing » Mony

Alkaline/Acid, Mony’s list

Mony — Thu, 29 Dec 2011 03:44:39 +0000

Alkaline-forming foods

All veggies other then
**Tomatoes and **mushrooms **Soy products
Grapes -eat just few
Herbal teas
Kale
Kelp
Leaf lettuce
Leeche nuts
Lima beans,
green
Love
Mangoes
Maple syrup- small amount
Melons (all)
Millet*
Molasses*
Mustard
greens
Okra
Onions
Parsley
Parsnips
Peaches
Pears
Peas, green
Peppers
Plums &
prunes
Potatoes* small amount
All fresh and raw fruits,
vegetables, and sprouts,
including those listed
here:
Alfalfa sprouts
Apple cider vinegar
Barley
Apples
Appreciation
Apricots
Avocados
Bananas
Beans, green
Beets & greens
Berries
Blackberries
Broccoli
Brussels sprouts
Cabbage
Cantaloupe
Carrots
Cauliflower
Celery
Cherries
Collard greens
Cucumbers
Dates
Dulse
Figs
Fresh corn
Fresh, raw juice
Fun
Goat whey
Quinoa*
Radishes
Raisins
Raspberries
Raw, cold-pressed,
Avoid Olive OIL**
flax seed oils
Sun flower seed Oil
Rhubarb

Acid-Forming Foods.

Avoid if it has 3***

Alcohol***
All processed foods
Anger
Barley
Bread, baked (or any)
Cake
Canned fruits and veggies
Cereals (all)
Chickpeas
Chocolate
Cigarettes
Coffee **
Complaining
Cooked grains (except millet and quinoa)
Corn, dried
Cornstarch
***Dairy products
Drugs
***Eggs
Foods cooked with oils
Fruits, glazed or sulfured
Grapefruits
***Ketchup
Honey, raw
Legumes
***Lemons
Lentils
Limes
*****Mushrooms
Meat, fish, birds, shellfish
Mustard, prepared
Nuts, seeds, beans
***** Olive oil all types
Oatmeal
****Oranges
Pasta
Pepper, black
*****Pineapple
****Pitzza
Popcorn
*****Soy products
***Soy beans- fresh
***Salt
Rutabagas
Sauerkraut
***Soda – any type
Crackers
****Soft drinks
Stress
*****Sugar, white and
processed
******Sweeteners, artificial
(Splenda, Equal, Aspartame,
etc.)
***Tea, black & green
Vegetables, overcooked
Vinegar, distilled
*****Vitamin C (made of citric acid)
****Wheat, all forms
******Tomatoes
All items with 2, 3, or 4 stars
need to be avoided at any cost.

Master Cleanse

Mony — Wed, 26 Oct 2011 23:52:03 +0000

Edited by Sofia Sun

Ingredients and amounts

- Fresh squeezed organic lemon juice : 2 TBSP (the lemon should preferably be ORGANIC )

- Organic maple syrup : 1 or 2 TBSP (preferably grade A )

- Organic Cayenne pepper : 1/8 of a ¼ TSP

- Filtered or spring water : 12 OZ

Mix all the above, and drink slowly.

Tips

+ The amount of maple syrup is optional. U can reduce the amount, but DO NOT OVER DO it.

+ The amount of lemon on the other hand cannot be increased or reduced. 2 TBSP is the amount, and it is very important to stick with it.

+ The same is for water. It is important to mix the above ingredients with 12 OZ of water.

+ u can drink as many glasses as u like. Basically whenever u feel hungry u can make a new glass, and drink it. But each time u need to make a portion with the amount mentioned above.

How long should u do the cleanse?

The minimum time is 11 days, but u can continue doing it for weeks or even months. The longest time someone has done it is 18 months.

Tip

+ DO NOT STOP BEFORE 11 DAYS, since it will create difficulties for the body, and will make u sick.

Other sweeteners ?

The only sweetener that is allowed during this cleanse is MAPLE SYRUP. No sugar, no honey, no molasses, no agave, no apple juice, no stevia. Just MAPLE SYRUP.

Preparation

To have a more effective and pleasant experience it’s better to prepare ur body, so u will not go through a deep emotional experience or either physical discomfort. So lighten up your diet and food intake a few weeks before u start ur cleanse. By doing this u will prepare ur body not only emotionally, but also, physically. Ur stomach will be empty, and will make it easier for the body to go through the cleansing process.

Laxative teas, Sea Salt mixture, other Herbal Teas, and Water

During the time of the cleanse u can drink laxative teas, drink herbal teas, and water.

Vitamin, Mineral, and Supplements

No. Let the body does its job to go back to its natural way of being. It knows what to do, and does not need anything.

Other Foods

No. The only food is the lemonade that u make urself. Do not cheat. U will not need any other food. U r getting all u need by being on this diet. And u will have more energy and clarity than u have ever had before.

Exercise

Yes. 30 min of cardio exercise. Also, body movement. Practices such as yoga, tai chi and chi gung, five Tibetan rites, walking, deep, connected breathing are all effective to keep u on track, feel good, and not lose ur faith while doing the cleanse.

Ending the cleanse

To end the cleanse, and go back to ur regular diet it is very important to be patience. If u decide to end ur cleanse after 11 days u need to start drinking apple juice for 3 days. Just drink the juice and water. Nothing else. After 3 days, start with soups. Then introduce some solid fruits and veggies to ur body, and stay on that for a few days. And little by little add some cooked food to ur diet.

Follow the guideline exactly, and u will have a pleasant experience.

Olive Oil – is it safe to eat

Mony — Sun, 18 Sep 2011 09:56:39 +0000

Article from Dr.Mercola
A common question that many people have is whether or not food should be eaten uncooked. I personally believe that consuming a majority of your food uncooked is a cornerstone of optimal health.

Typically, the less processed and heat-treated the food is, the more nutritious and healthier it is going to be.

Nevertheless, most people prefer to cook their food, at least occasionally. When you do, you’re going to cook with some form of oil.

The question is, what’s the best, healthiest type of oil to use when cooking?

Dr. Rudi Moerck has studied oils for a long time, and offers some intriguing insights in this interview.

Cooking with Tropical Oils – Your Healthiest Alternative

I have, for many years now, recommended coconut oil on the basis and the supposition that it doesn’t contain much unsaturated fat. As a result, it’s not going to be damaged by heat and create trans fats like some other oils. (Another tropical oil that is very similar is palm oil.)

Dr. Moerck agrees, saying:

“I would say that coconut oil is okay to cook with. It’s a saturated fat. Your body will burn it as fuel or it will get rid of it some other way. It won’t store it in your body.. So from that point of view, if you’re going to use oil then that’s a good one to use.”

Interestingly, unlike carbohydrates, which can also deliver quick energy to your body, coconut oil does this without producing an insulin spike. Yes, it acts like a carbohydrate, but without any of the debilitating insulin-related effects associated with long-term high carbohydrate consumption.

But that’s merely the beginning.

Earlier this week I published an entire special report on the health benefits of coconut oil, which include:

Promoting heart health
Promoting weight loss, when needed
Supporting your immune system health
Supporting a healthy metabolism
Providing you with an immediate energy source
Keeping your skin healthy and youthful looking
Supporting the proper functioning of your thyroid gland

Part of what makes coconut oil such a healthful oil for cooking is that 50 percent of the fat content in coconut oil is a fat rarely found in nature called lauric acid. This is also one of the features that distinguishes coconut oil from other saturated fats.

Your body converts lauric acid into monolaurin, which has potent anti-viral, anti-bacterial and anti-protozoa properties.

In addition, coconut oil is about 2/3 medium-chain fatty acids (MCFAs), also called medium-chain triglycerides or MCTs. These types of fatty acids also produce a host of health benefits.

Best of all, coconut oil is stable enough to resist heat-induced damage, which you cannot say for other oils. In fact, it’s so stable you can even use if for frying (although I don’t recommend frying your food for a number of health reasons).

I recommend using coconut oil in lieu of every other oil, whether your recipe calls for butter, olive oil, vegetable oil or margarine.

Important, New Information about Olive Oil

Extra-virgin olive oil is a good monounsaturated fat that is also well-known for its health benefits. It’s a staple in healthful diets such as Mediterranean-style diets.

However, it’s important to realize it is NOT good for cooking. It should really only be used cold, typically drizzled on salads and other food.

Due to its chemical structure and a large amount of unsaturated fats, cooking makes extra-virgin olive oil very susceptible to oxidative damage. However, during this interview I learned that extra-virgin olive oil has a significant draw-back even when used cold – it’s still extremely perishable!

As it turns out, extra-virgin olive oil contains chlorophyll that accelerates decomposition and makes the oil go rancid rather quickly.

In fact, Dr. Moerck actually prefers using almost tasteless, semi-refined olive oil rather than extra-virgin olive oil for this reason.

If you’re like most people, you’re probably leaving your bottle of olive oil right on the counter, opening and closing it multiple times a week. Remember, any time the oil is exposed to air and/or light, it oxidizes, and as it turns out, the chlorophyll in extra virgin olive oil accelerates the oxidation of the unsaturated fats.

Clearly, consuming spoiled oil (of any kind) will likely do more harm than good.

To protect the oil, Dr. Moerck recommends treating it with the same care as you would other sensitive omega-3 oils:

Keep in a cool, dark place
Purchase smaller bottles rather than larger to ensure freshness
Immediately replace the cap after each pour

To help protect extra virgin olive oil from oxidation, Dr. Moerck suggests putting one drop of astaxanthin into the bottle. You can purchase astaxanthin, which is an extremely potent antioxidant, in soft gel capsules. Just prick it with a pin and squeeze the capsule into the oil.

The beautiful thing about using astaxanthin instead of another antioxidant such as vitamin E, is that it is naturally red, whereas vitamin E is colorless, so you can tell the oil still has astaxanthin in it by its color.

As the olive oil starts to pale in color, you know it’s time to throw it away.

You can also use one drop of lutein in your olive oil. Lutein imparts an orange color and will also protect against oxidation. Again, once the orange color fades, your oil is no longer protected against rancidity and should be tossed.

This method is yet another reason for buying SMALL bottles. If you have a large bottle, you may be tempted to keep it even though it has begun to oxidize.

The Worst Cooking Oils of All

Polyunsaturated fats are the absolute WORST oils to use when cooking because these omega-6-rich oils are highly susceptible to heat damage.

This category includes common vegetable oils such as:

Corn
Soy
Safflower
Canola

Damaged omega-6 fats are disastrous to your health, and are responsible for far more health problems than saturated fats ever were.

Trans fat is the artery-clogging, highly damaged omega-6 polyunsaturated fat that is formed when vegetable oils are hardened into margarine or shortening.

I strongly recommend never using margarine or shortening when cooking. I guarantee you you’re already getting far too much of this damaging fat if you consume any kind of processed foods, whether it be potato chips, pre-made cookies, or microwave dinners…

Trans fat is the most consumed type of fat in the US, despite the fact that there is no safe level of trans fat consumption, according to a report from the Institute of Medicine.

Trans fat raises your LDL (bad cholesterol) levels while lowering your HDL (good cholesterol) levels, which of course is the complete opposite of what you want. In fact, trans fats – as opposed to saturated fats — have been repeatedly linked to heart disease. They can also cause major clogging of your arteries, type 2 diabetes and other serious health problems.

Personally I don’t cook very much but when I do I use our Pure Virgin Coconut Oil as it is the most resistant to heating damage, but also a great source of medium chained triglycerides and lauric acid.

So, cleaning these oils out of your kitchen cupboard is definitely recommended if you value your health.

Pathogen Types

Mony — Tue, 02 Aug 2011 11:33:37 +0000

From Wikipedia, and other websites

A pathogen (from Greek πάθος pathos “suffering, passion”, and γἰγνομαι (γεν-) gignomai (gen-) “I give birth to” a infectious agent, or more commonly germ, is a biological agent that causes disease to its host. There are several substrates and pathways whereby pathogens can invade a host; the principal pathways have different episodic time frames, but soil contamination has the longest or most persistent potential for harboring a pathogen.

The body contains many natural orders of defense against some of the common pathogens (such as Pneumocystis) in the form of the human immune system and by some “helpful” bacteria present in the human body’s normal flora. However, if the immune system or “good” bacteria is damaged in any way (such as by chemotherapy, human immunodeficiency virus (HIV), or antibiotics being taken to kill other pathogens), pathogenic bacteria that were being held at bay can proliferate and cause harm to the host. Such cases are called opportunistic infection.

Some pathogens (such as the bacterium Yersinia pestis, which may have caused the Black Plague, the Variola virus, and the Malaria protozoa) have been responsible for massive numbers of casualties and have had numerous effects on afflicted groups. Of particular note in modern times is HIV, which is known to have infected several million humans globally, along with the Influenza virus. Today, while many medical advances have been made to safeguard against infection by pathogens, through the use of vaccination, antibiotics, and fungicide, pathogens continue to threaten human life. Social advances such as food safety, hygiene, and water treatment have reduced the threat from some pathogens.

Not all pathogens are negative. In entomology, pathogens are one of the “Three P’s” (predators, pathogens, and parasitoids) that serve as natural or introduced biological controls to suppress arthropod pest populations.

Below is a list of different types of notable pathogens as categorized by their structural characteristics, and some of their known and predicted effects on infected host (person).

Viral

Pathogenic viruses are mainly those of the families of: Adenoviridae, Picornaviridae, Herpesviridae, Hepadnaviridae, Flaviviridae, Retroviridae, Orthomyxoviridae, Paramyxoviridae, Papovaviridae, Polyomavirus, Rhabdoviridae, Togaviridae. Some notable pathogenic viruses cause: smallpox, influenza, mumps, measles, chickenpox, ebola, and rubella. Viruses typically range between 20-300 nanometers in length.

Bacterial

Although the vast majority of bacteria are harmless or beneficial, a few pathogenic bacteria can cause infectious diseases. The most common bacterial disease is tuberculosis, caused by the bacterium Mycobacterium tuberculosis, which affects about 2 million people mostly in sub-Saharan Africa. Pathogenic bacteria contribute to other globally important diseases, such as pneumonia, which can be caused by bacteria such as Streptococcus and Pseudomonas, and foodborne illnesses, which can be caused by bacteria such as Campylobacter and Salmonella. Pathogenic bacteria also cause infections such as tetanus, typhoid fever, diphtheria, syphilis and leprosy. Bacteria can often be killed by antibiotics. They typically range between 1-5 micrometers in length.

Fungal

Fungi comprise a eukaryotic kingdom of microbes that are usually saprophytes but can cause diseases in humans, animals and plants. Fungi are the most common cause of diseases in crops and other plants. Life threatening fungal infections in humans most often occur in immunocompromised patients or vulnerable people with a weakend immune system, although fungi are common problems in the immunocompetent population as the causative agents of skin, nail or yeast infections. Most antibiotics that function on bacterial pathogens cannot be used to treat fungal infections due to the fact that fungi and their hosts both have eukaryotic cells. Most clinical fungicides belong to the azole group. The typical fungal spore size is 1-40 micrometer in length.

Prions are infectious pathogens that do not contain nucleic acids. Protein malformations caused by prion infections are implicated in scrape, bovine spongiform encephalopathy (mad cow disease) and Creutzfeldt–Jakob disease.

Potency

One hypothesis regarding pathogens states that the longer a pathogen can survive outside of the body, the more dangerous it can be to a potential host. For example, the smallpox virus (variola virus) can survive outside the human body for approximately 885 days. It is also one of the most deadly pathogenic viruses, as it kills between 20-50% of the people it infects. The tuberculosis bacterium kills 1 in 5 of the people it infects, but only survives 244 days outside of its host. However, research into the basis of the ability of pathogens to cause disease provides evidence from multiple and diverse species of the existence of pathogenicity or virulence factors, encoded within the pathogens’ genetic material, that facilitate microbes to cause disease.

In countries that have higher sanitation standards, pathogens cannot survive for as long outside of the human. This is seen as encouragement to mutations to the pathogen which would make it less deadly, as such mutations would allow the pathogen to survive in the host for longer periods of time,

Main article: Transmission (medicine)

One of the primary pathways by which food or water become contaminated is from the release of untreated sewage into a drinking water supply or onto cropland, with the result that people who eat or drink contaminated sources become infected. Even in developed countries there are periodic system failures resulting in a sanitary sewer overflow.

Examples of major human pathogens

Mycobacterium tuberculosis — the causative agent of most cases of tuberculosis
Mycobacterium leprae — the bacterium that causes leprosy (Hansen’s disease)
Yersinia pestis — pneumonic, and the notorious bubonic plagues (aka “Black Death“)
Rickettsia prowazekii — the etiologic agent of typhus fever
Bartonella spp.

Spanish influenza virus

Prostate

Mony — Wed, 27 Jul 2011 05:32:55 +0000

From Wikipedia and other websites.

** There is a lot of misunderstanding and fear regarding prostate problems. From the holistic view, prostate issues are an adhesion/fungus growth cause by Acidic conditions and lack of movement of urogenital era.

The prostate literally mean “one who stands before”, “protector”, “guardian” is a compound tubuloalveolar exocrine gland of the male reproductive system in most mammals.

In 2002, female paraurethral glands, or Skene’s glands, were officially renamed the female prostate by the Federative International Committee on Anatomical Terminology.

The prostate differs considerably among species anatomically, chemically, and physiologically.

Function

The function of the prostate is to store and secrete a slightly alkaline fluid, milky or white in appearance, that usually constitutes 20-30% of the volume of the semen along with spermatozoa and seminal vesicle fluid. The alkalinity of semen helps neutralize the acidity of the vaginal tract, prolonging the lifespan of sperm. The alkalinization of semen is primarily accomplished through secretion from the seminal vesicles. The prostatic fluid is expelled in the first ejaculate fractions, together with most of the spermatozoa. In comparison with the few spermatozoa expelled together with mainly seminal vesicular fluid, those expelled in prostatic fluid have better motility, longer survival and better protection of the genetic material (DNA).

The prostate also contains some smooth muscles that help expel semen during ejaculation.

Secretions

Prostatic secretions vary among species. They are generally composed of simple sugars and are often slightly alkaline.

In human prostatic secretions, the protein content is less than 1% and includes proteolytic enzymes, prostatic acid phosphatase, and prostate-specific antigen. The secretions also contain zinc with a concentration 500-1,000 times the concentration in blood.

Regulation

To work properly, the prostate needs male hormones (androgens), which are responsible for male sex characteristics.

The main male hormone is testosterone, which is produced mainly by the testicles. Some male hormones are produced in small amounts by the adrenal glands. However, it is dihydrotestosterone that regulates the prostate.

Development

The prostatic part of the urethra develops from the pelvic (middle) part of the urogenital sinus (endodermal origin). Endodermal outgrowths arise from the prostatic part of the urethra and grow into the surrounding mesenchyme. The glandular epithelium of the prostate differentiates from these endodermal cells, and the associated mesenchyme differentiates into the dense stroma and the smooth muscle of the prostate. The prostate glands represent the modified wall of the proximal portion of the male urethra and arises by the 9th week of embryonic life in the development of the reproductive system. Condensation of mesenchyme, urethra and Wolffian ducts gives rise to the adult prostate gland, a composite organ made up of several glandular and non-glandular components tightly fused within a common capsule.

Female prostate gland

The Skene’s gland, also known as the paraurethral gland, found in females, is homologous to the prostate gland in males. However, evolutionarily, the uterus is in the same position as the prostate gland. In 2002 the Skene’s gland was officially renamed the prostate by the Federative International Committee on Anatomical Terminology.

The female prostate, like the male prostate, secretes PSA and levels of this antigen rise in the presence of carcinoma of the gland. The gland also expels fluid, like the male prostate, during orgasm.

Structure

Micrograph of benign prostatic glands with corpora amylacea. H&E stain.

Urinary bladder (black butterfly-like shape) and hyperplastic prostate (BPH) visualized by Medical ultrasonography technique

A healthy human prostate is classically said to be slightly larger than a walnut. In actuality, it is approximately the size of a kiwifruit. The mean weight of the “normal” prostate in adult males is about 11 grams, usually ranging between 7 and 16 grams. It surrounds the urethra just below the urinary bladder and can be felt during a rectal exam. It is the only exocrine organ located in the midline in humans and similar animals.

The ducts are lined with transitional epithelium.

Within the prostate, the urethra coming from the bladder is called the prostatic urethra and merges with the two ejaculatory ducts. The prostate is sheathed in the muscles of the pelvic floor, which contract during the ejaculatory process.

The prostate can be divided in two ways: by zone, or by lobe.

The “zone” classification is more often used in pathology. The idea of “zones” was first proposed by McNeal in 1968. McNeal found that the relatively homogeneous cut surface of an adult prostate in no way resembled “lobes” and thus led to the description of “zones.”

The prostate gland has four distinct glandular regions, two of which arise from different segments of the prostatic urethra:

Name	Fraction of gland	Description
Peripheral zone (PZ)	Up to 70% in young men	The sub-capsular portion of the posterior aspect of the prostate gland that surrounds the distal urethra. It is from this portion of the gland that ~70-80% of prostatic cancers originate.
Central zone (CZ)	Approximately 25% normally	This zone surrounds the ejaculatory ducts. The central zone accounts for roughly 2.5% of prostate cancers although these cancers tend to be more aggressive and more likely to invade the seminal vesicles.
Transition zone (TZ)	5% at puberty	~10-20% of prostate cancers originate in this zone. The transition zone surrounds the proximal urethra and is the region of the prostate gland that grows throughout life and is responsible for the disease of benign prostatic enlargement.
Anterior fibro-muscular zone (or stroma)	Approximately 5%	This zone is usually devoid of glandular components, and composed only, as its name suggests, of muscle and fibrous tissue.

Prostate with a large median lobe bulging upwards. A metal instrument is placed in the urethra which passes through the prostate. This specimen was almost 7 centimeters long with a volume of about 60 cubic centimetres on transrectal ultrasound and was removed during a Hryntschak procedure or transvesical prostatectomy (removal of the prostate through the bladder) for benign prostatic hyperplasia.

The “lobe” classification is more often used in anatomy.

Anterior lobe (or isthmus)	roughly corresponds to part of transitional zone
Posterior lobe	roughly corresponds to peripheral zone
Lateral lobes	spans all zones
Median lobe (or middle lobe)	roughly corresponds to part of central zone

Prostatitis

Micrograph showing an inflamed prostate gland, the histologic correlate of prostatitis. A normal non-inflamed prostatic gland is seen on the left of the image. H&E stain.

Prostatitis is inflammation of the prostate gland. There are primarily four different forms of prostatitis, each with different causes and outcomes. Two relatively uncommon forms, acute prostatitis and chronic bacterial prostatitis, are treated with antibiotics (category I and II, respectively). Chronic non-bacterial prostatitis or male chronic pelvic pain syndrome (category III), which comprises about 95% of prostatitis diagnoses, is treated by a large variety of modalities including alpha blockers, phytotherapy, physical therapy, psychotherapy, antihistamines, anxiolytics, nerve modulators, surgery, and more. More recently, a combination of trigger point and psychological therapy has proved effective for category III prostatitis as well. Category IV prostatitis, relatively uncommon in the general population, is a type of leukocytosis.

Benign prostatic hyperplasia

Benign prostatic hyperplasia (BPH) occurs in older men; the prostate often enlarges to the point where urination becomes difficult. Symptoms include needing to urinate often (frequency) or taking a while to get started (hesitancy). If the prostate grows too large, it may constrict the urethra and impede the flow of urine, making urination difficult and painful and, in extreme cases, completely impossible.

BPH can be treated with medication, a minimally invasive procedure or, in extreme cases, surgery that removes the prostate. Minimally invasive procedures include Transurethral needle ablation of the prostate (TUNA) and Transurethral microwave thermotherapy (TUMT). These outpatient procedures may be followed by the insertion of a temporary Prostatic stent, to allow normal voluntary urination, without exacerbating irritative symptoms.

The surgery most often used in such cases is called transurethral resection of the prostate (TURP or TUR). In TURP, an instrument is inserted through the urethra to remove prostate tissue that is pressing against the upper part of the urethra and restricting the flow of urine. TURP results in the removal of mostly transitional zone tissue in a patient with BPH. Older men often have corpora amylacea (myeloid), dense accumulations of calcified proteinaceous material, in the ducts of their prostates. The corpora amylacea may obstruct the lumens of the prostatic ducts, and may underlie some cases of BPH.

Urinary frequency due to bladder spasm, common in older men, may be confused with prostatic hyperplasia. Statistical observations suggest that a diet low in fat and red meat and high in protein and vegetables, as well as regular alcohol consumption, could protect against BPH.

Prostate cancer

Micrograph showing normal prostatic glands and glands of prostate cancer (prostate adenocarcinoma) – right upper aspect of image. HPS stain. Prostate biopsy.

Prostate cancer is one of the most common cancers affecting older men in developed countries and a significant cause of death for elderly men (estimated by some specialists at 3%). Regular rectal exams, as well as measurement of Prostate From Wikipedia, the free encyclopedia

The prostate literally mean “one who stands before”, “protector”, “guardian” is a compound tubuloalveolar exocrine gland of the male reproductive system in most mammals.

In 2002, female paraurethral glands, or Skene’s glands, were officially renamed the female prostate by the Federative International Committee on Anatomical Terminology.

The prostate differs considerably among species anatomically, chemically, and physiologically.

Function

The function of the prostate is to store and secrete a slightly alkaline fluid, milky or white in appearance, that usually constitutes 20-30% of the volume of the semen along with spermatozoa and seminal vesicle fluid. The alkalinity of semen helps neutralize the acidity of the vaginal tract, prolonging the lifespan of sperm. The alkalinization of semen is primarily accomplished through secretion from the seminal vesicles.^[6] The prostatic fluid is expelled in the first ejaculate fractions, together with most of the spermatozoa. In comparison with the few spermatozoa expelled together with mainly seminal vesicular fluid, those expelled in prostatic fluid have better motility, longer survival and better protection of the genetic material (DNA).

The prostate also contains some smooth muscles that help expel semen during ejaculation.

Secretions

Prostatic secretions vary among species. They are generally composed of simple sugars and are often slightly alkaline.

Regulation

To work properly, the prostate needs male hormones (androgens), which are responsible for male sex characteristics.

Development

The prostatic part of the urethra develops from the pelvic (middle) part of the urogenital sinus (endodermal origin). Endodermal outgrowths arise from the prostatic part of the urethra and grow into the surrounding mesenchyme. The glandular epithelium of the prostate differentiates from these endodermal cells, and the associated mesenchyme differentiates into the dense stroma and the smooth muscle of the prostate. The prostate glands represent the modified wall of the proximal portion of the male urethra and arises by the 9th week of embryonic life in the development of the reproductive system. Condensation of mesenchyme, urethra and Wolffian ducts gives rise to the adult prostate gland, a composite organ made up of several glandular and non-glandular components tightly fused within a common capsule.

Female prostate gland

The Skene’s gland, also known as the paraurethral gland, found in females, is homologous to the prostate gland in males. However, evolutionarily, the uterus is in the same position as the prostate gland. In 2002 the Skene’s gland was officially renamed the prostate by the Federative International Committee on Anatomical Terminology.

Structure

Micrograph of benign prostatic glands with corpora amylacea. H&E stain.

Urinary bladder (black butterfly-like shape) and hyperplastic prostate (BPH) visualized by Medical ultrasonography technique

The ducts are lined with transitional epithelium.

The prostate can be divided in two ways: by zone, or by lobe.

Zones

The prostate gland has four distinct glandular regions, two of which arise from different segments of the prostatic urethra:

Name	Fraction of gland	Description
Peripheral zone (PZ)	Up to 70% in young men	The sub-capsular portion of the posterior aspect of the prostate gland that surrounds the distal urethra. It is from this portion of the gland that ~70-80% of prostatic cancers originate.
Central zone (CZ)	Approximately 25% normally	This zone surrounds the ejaculatory ducts. The central zone accounts for roughly 2.5% of prostate cancers although these cancers tend to be more aggressive and more likely to invade the seminal vesicles.
Transition zone (TZ)	5% at puberty	~10-20% of prostate cancers originate in this zone. The transition zone surrounds the proximal urethra and is the region of the prostate gland that grows throughout life and is responsible for the disease of benign prostatic enlargement.
Anterior fibro-muscular zone (or stroma)	Approximately 5%	This zone is usually devoid of glandular components, and composed only, as its name suggests, of muscle and fibrous tissue.

The “lobe” classification is more often used in anatomy.

Anterior lobe (or isthmus)	roughly corresponds to part of transitional zone
Posterior lobe	roughly corresponds to peripheral zone
Lateral lobes	spans all zones
Median lobe (or middle lobe)	roughly corresponds to part of central zone

Prostatitis

Micrograph showing an inflamed prostate gland, the histologic correlate of prostatitis. A normal non-inflamed prostatic gland is seen on the left of the image. H&E stain.

Benign prostatic hyperplasia

The surgery most often used in such cases is called transurethral resection of the prostate (TURP or TUR). In TURP, an instrument is inserted through the urethra to remove prostate tissue that is pressing against the upper part of the urethra and restricting the flow of urine. TURP results in the removal of mostly transitional zone tissue in a patient with BPH. Older men often have corpora amylacea (amyloid), dense accumulations of calcified proteinaceous material, in the ducts of their prostates. The corpora amylacea may obstruct the lumens of the prostatic ducts, and may underlie some cases of BPH.

Prostate cancer

Micrograph showing normal prostatic glands and glands of prostate cancer (prostate adenocarcinoma) – right upper aspect of image. HPS stain. Prostate biopsy.

In a paper published in the 1 March 2011 issue of the journal Clinical Cancer Research, researchers from the University of Surrey reported that prostate cancers secrete the protein Engrailed-2 (EN2). EN2 can be found in a urine test. A EN2 stick test (like a pregnancy test) was expected to give results within five minutes. The test is more accurate, less invasive, and gives far fewer false positives than PSA test.

Male sexual response

During male orgasm, sperm is transmitted from the ductus deferens into the male urethra via the ejaculatory ducts, which lie within the prostate gland.

It is possible for men to achieve orgasm solely through stimulation of the prostate gland, such as prostate massage or receptive anal intercourse.

Vasectomy and risk of prostate cancer

In 1993, the Journal of the American Medical Association revealed a connection between vasectomy and an increased risk of prostate cancer. Reported studies of 48,000 and 29,000 men who had vasectomies showed 66 percent and 56 percent higher rates of prostate cancer, respectively. The risk increased with age and the number of years since the vasectomy was performed.

However, in March of the same year, the National Institute of Child Health and Human Development held a conference cosponsored by the National Cancer Institute and others to review the available data and information on the link between prostate cancer and vasectomies. It was determined that an association between the two was very weak at best, and even if having a vasectomy increased one’s risk, the risk was relatively small.

In 1997, the NCI held a conference with the prostate cancer Progressive Review Group (a committee of scientists, medical personnel, and others). Their final report, published in 1998 stated that evidence that vasectomies help to develop prostate cancer was weak at best.

Stenting the prostate

Recent scientific breakthroughs have now meant using a Prostatic stent is a viable method of dis-obstructing the prostate. Stents are devices inserted into the urethra to widen it and keep it open. Stents can be temporary or permanent, and insertion is mostly done on an outpatient basis under local or spinal anesthesia and usually takes about 30 minutes.

Specific Antigen (PSA) are recommended for men, usually ages 40 and up to detect prostate cancer early.

Male sexual response

During male orgasm, sperm is transmitted from the ductus deferens into the male urethra via the ejaculatory ducts, which lie within the prostate gland.

It is possible for men to achieve orgasm solely through stimulation of the prostate gland, such as prostate massage or receptive anal intercourse.

Vasectomy and risk of prostate cancer

Stenting the prostate

Rebounders – Recommendations

Mony — Thu, 30 Jun 2011 00:43:54 +0000

As you know, I am totally bullish on using rebounders. I use it for 25 minutes every day without exception. Check below the link and learn about rebounding. This link has the right rebounders that I recommend. If you have questions in this regard, please feel free to contact me. Mony

Click here to go to the Reboundes page

Vaginitis

Mony — Wed, 15 Jun 2011 21:44:18 +0000

From the National Institutes of Health.

What is vaginitis?
Vaginitis is a term for any infection or inflammation of the vagina.
What are the symptoms of vaginitis?
In general, vaginitis may cause itching, irritation, or abnormal vaginal discharge.

There are a several different kinds of vaginitis, each with their own causes and symptoms:

Candida or “yeast” infections – Yeast infections of the vagina are probably the most familiar form of vaginitis. They occur when too much of the fungus Candida grows in the vagina.

Yeast infections produce a thick, white discharge from the vagina that can look like cottage cheese. The discharge can be watery and often has no smell. Yeast infections usually cause the vagina and vulva (the area outside the vagina) to become itchy and red.

Bacterial vaginosis – Bacterial vaginosis is the most common vaginal infection in women of reproductive age. It is caused by an overgrowth of bacteria that are usually present in the vagina.

Bacterial vaginosis will often cause a thin, milky discharge from the vagina that may have a “fishy” odor. Many women with bacterial vaginosis have no symptoms and only discover they have it during a routine gynecologic exam.

Trichomoniasis – Trichomoniasis is a sexually transmitted disease that is caused by a single-cell parasite. It can cause vaginal itching, burning, and soreness of the vagina and vulva, as well as burning during urination. Many women with trichomoniasis do not develop any symptoms.

Non-infectious vaginitis – This form of vaginitis is usually caused by an allergic reaction or irritation from vaginal sprays, douches, spermicidal products, soaps, detergents, or fabric softeners. It can cause burning, itching, or vaginal discharge even if there is no infection.

What are the treatments for vaginitis?

The key to treating vaginitis is knowing which kind you have. The treatment must be specific to the type of vaginitis present.

Yeast infections are usually treated with an anti-yeast cream or suppository placed inside the vagina. A health care provider can write a prescription for most yeast infection treatments.

Although you can also buy medicine to treat yeast infections over-the-counter, it is a good idea to see a health care provider the first time you have symptoms of a yeast infection. Because this medicine will not cure other types of vaginitis, it is important to be sure you actually have a yeast infection before using these treatments.

Bacterial vaginosis is treated with an antibiotic that gets rid of the “bad” bacteria and leaves the “good” bacteria. There is no over-the-counter treatment for bacterial vaginosis, so it is important to see your health care provider for a prescription.

Sexually transmitted forms of vaginitis need to be treated by a health care provider right away. It is important to avoid sexual contact until you have been treated to prevent spreading the infection. A woman’s sexual partner(s) will need treatment as well.

Trichomoniasis and Chlamydia are both treated by antibiotics. Neither genital herpes nor HPV can be cured, but both can be controlled with the help of your health care provider and medications.

Non-infectious vaginitis can be treated by stopping the use of the product that caused the allergic reaction or irritation. Your health care provider may also be able to provide medicated cream to help reduce the symptoms until the reaction goes away.

It is important to remember that each type of vaginitis has a different treatment. Therefore it is very important to see a health care provider to be sure you are using the right treatment for your condition. Also, some kinds of vaginitis have no symptoms so it is important to have regular gynecologic exams.

Can I prevent vaginitis?

There are some things you can do to lower your chances of getting vaginitis.

If you often get yeast infections, you may want to avoid clothes that hold in heat and moisture, such as panty hose without a cotton lining, nylon panties, or tight jeans.

Avoid douches and vaginal sprays because they can kill “good” bacteria or cause irritation.

Practicing safe sex can help protect against sexually transmitted forms of vaginitis.

Colds and Flus

Mony — Sun, 05 Jun 2011 17:40:02 +0000

I Think this article is right on and is a great info resource . – Mony
What Most Doctors Won’t Tell You About Colds and Flus. By Dr. Ben Kim

The next time that you experience a cold or the flu, remember this: giving your body plenty of rest while allowing the cold or flu to run its course is good for your health.

Conventional medicine and the pharmaceutical industry would have you believe that there is no “cure” for the common cold, that you should protect yourself against the flu with a vaccine that is laden with toxic chemicals, and that during the midst of a cold or flu, it is favorable to ease your discomfort with a variety of medications that can suppress your symptoms.

Unfortunately, all three of these positions represent a lack of understanding of what colds and flus really are, and what they mean to your body.

Colds and flus are caused by viruses. So to understand what colds and flus do at a cellular level, you have to understand what viruses do at a cellular level.

Do you remember learning about cellular division in grade seven science class? Each of your cells are called parent cells, and through processes of genetic duplication (mitosis) and cellular division (cytokinesis), each of your parent cells divides into two daughter cells. Each daughter cell is then considered a parent cell that will divide into two more daughter cells, and so on, and so on, and so on.

Viruses are different from your cells in that they cannot duplicate themselves through mitosis and cytokinesis. Viruses are nothing but microscopic particles of genetic material, each coated by a thin layer of protein.

Due to their design, viruses are not able to reproduce on their own. The only way that viruses can flourish in your body is by using the machinery and metabolism of your cells to produce multiple copies of themselves.

Once a virus has gained access into one of your cells, depending on the type of virus involved, one of two things can happen:

The virus uses your cell’s resources to replicate itself many times over and then breaks open (lyses) the cell so that the newly replicated viruses can leave in search of new cells to infect. Lysis effectively kills your cell.
The virus incorporates itself into the DNA of your cell, which allows the virus to be passed on to each daughter cell that stems from this cell. Later on, the virus in each daughter cell can begin replicating itself as described above. Once multiple copies of the virus have been produced, the cell is lysed.

Both possibilities lead to the same result: eventually, the infected cell can die due to lysis.

Here is the key to understanding why colds and flus, when allowed to run their course while you rest, can be good for you:

By and large, the viruses that cause the common cold and the flu infect mainly your weakest cells; cells that are already burdened with excessive waste products and toxins are most likely to allow viruses to infect them. These are cells that you want to get rid of anyway, to be replaced by new, healthy cells.

So in the big scheme of things, a cold or flu is a truly natural tool that can allow your body to purge itself of old and damaged cells that, in the absence of viral infection, would normally take much longer to identify, destroy, and eliminate.

Have you ever been amazed by how much “stuff” you could blow out of your nose while you had a cold or the flu? Embedded within all of that mucous are countless dead cells that your body is saying good bye to, largely due to the lytic effect of viruses.

So you see, there never needs to be a cure for the common cold, since the common cold is nature’s way of keeping you healthy over the long term. And so long as you get plenty of rest and strive to stay hydrated and properly nourished during a cold or flu, there is no need to get vaccinated or to take medications that suppress congested sinuses, a fever, or coughing. All of these uncomfortable symptoms are actually ways in which your body works to eliminate waste products and/or help your body get through a cold or flu. It’s fine to use over-the-counter pain medication like acetaminophen if your discomfort becomes intolerable or if such meds can help you get a good night’s rest. But it’s best to avoid medications that aim to suppress helpful processes such as fever, coughing, and a runny nose.

It’s important to note that just because colds and flus can be helpful to your body doesn’t mean that you need to experience them to be at your best. If you take good care of your health and immune system by getting plenty of rest and consistently making health-promoting dietary and lifestyle choices, your cells may stay strong enough to avoid getting infected by viruses that come knocking on their membranes. In this scenario, you won’t have enough weak and extraneous cells to require a cold or the flu to work its way through your body to identify and lyse them.

Curious about how to differentiate the common cold and the flu? Here is an excellent summary of the differences from cbc.ca:

A cold usually comes on gradually — over the course of a day or two. Generally, it leaves you feeling tired, sneezing, coughing and plagued by a running nose. You often don’t have a fever, but when you do, it’s only slightly higher than normal. Colds usually last three to four days, but can hang around for 10 days to two weeks.

Flu, on the other hand, comes on suddenly and hits hard. You will feel weak and tired and you could run a fever as high as 40 C. Your muscles and joints will probably ache, you will feel chilled and could have a severe headache and sore throat. Getting off the couch or out of bed will be a chore. The fever may last three to five days, but you could feel weak and tired for two to three weeks.

One final note on this topic: because the common cold and the flu are both caused by viruses, antibiotics are not necessary. People who take antibiotics while suffering with a cold or flu often feel slightly better because antibiotics have a mild anti-inflammatory effect. But this benefit is far outweighed by the negative impact that antibiotics have on friendly bacteria that live throughout your digestive tract. In this light, if you really need help with pain management during a cold or flu, it is usually better to take a small dose of acetaminophen than it is to take antibiotics.

Please share this basic health information on colds and flus with family and friends; although it isn’t readily available from the annals of conventional medicine, this information can save you and your loved ones significant time, money, and angst.

Sepsis

Mony — Sat, 28 May 2011 05:45:07 +0000

By Wikipedia.

Sepsis or Septicemia

Sepsis is a potentially deadly medical condition that is characterized by a whole-body inflammatory state (called a systemic inflammatory response syndrome or SIRS) and the presence of a known or suspected infection. The body may develop this inflammatory response by the immune system to microbes in the blood, urine, lungs, skin, or other tissues. A lay term for sepsis is blood poisoning, more aptly applied to septicemia, below. Severe sepsis is the systemic inflammatory response, plus infection, plus the presence of organ dysfunction.

Septicemia (also septicaemia or septicæmia is a related medical term referring to the presence of pathogenic organisms in the bloodstream, leading to sepsis. The term has not been sharply defined. It has been inconsistently used in the past by medical professionals, for example as a synonym of bacteremia, causing some confusion.

Severe sepsis is usually treated in the intensive care unit with intravenous fluids and antibiotics. If fluid replacement is insufficient to maintain blood pressure, specific vasopressor medications can be used. Mechanical ventilation and dialysis may be needed to support the function of the lungs and kidneys, respectively. To guide therapy, a central venous catheter and an arterial catheter may be placed; measurement of other hemodynamic variables (such as cardiac output, or mixed venous oxygen saturation) may also be used. Sepsis patients require preventive measures for deep vein thrombosis, stress ulcers and pressure ulcers, unless other conditions prevent this. Some patients might benefit from tight control of blood sugar levels with insulin (targeting stress hyperglycemia), low-dose corticosteroids or activated drotrecogin alfa (recombinant protein C).

Terminology

Systemic Inflammatory Response Syndrome or SIRS is evidence of the body’s ongoing inflammatory response. When SIRS is suspected or known to be caused by an infection, this is sepsis. Severe sepsis occurs when sepsis leads to organ dysfunction, such as trouble breathing, coagulation or other blood abnormalities, decreased urine production, or altered mental status. If the organ dysfunction of severe sepsis is low blood pressure (hypotension), or insufficient blood flow (hypoperfusion) to one or more organs (causing, for example, lactic acidosis), this is septic shock.

Sepsis can lead to multiple organ dysfunction syndrome (MODS) (formerly known as multiple organ failure), and death. Organ dysfunction results from local changes in blood flow, from sepsis-induced hypotension (< 90 mmHg or a reduction of ≥ 40 mmHg from baseline) and from diffuse intravascular coagulation, among other things.

Sepsis can be defined as the body’s response to an infection. An infection is caused by microorganisms or bacteria invading the body and can be limited to a particular body region or can be widespread in the bloodstream. Sepsis is acquired quickest with infections developed in surgery and physical contact with someone with sepsis.

Bacteremia is the presence of viable bacteria in the bloodstream. Likewise, the terms viremia and fungemia simply refer to viruses and fungi in the bloodstream. These terms say nothing about the consequences this has on the body. For example, bacteria can be introduced into the bloodstream during toothbrushing. This form of bacteremia almost never causes problems in normal individuals. However, bacteremia associated with certain dental procedures can cause bacterial infection of the heart valves (known as endocarditis) in high-risk patients. Conversely, a systemic inflammatory response syndrome can occur in patients without the presence of infection, for example in those with burns, polytrauma, or the initial state in pancreatitis and chemical pneumonitis.

Signs and symptoms

In addition to symptoms related to the provoking infection, sepsis is characterized by presence of acute inflammation present throughout the entire body, and is, therefore, frequently associated with fever and elevated white blood cell count (leukocytosis) or low white blood cell count and lower-than-average temperature, and vomiting. The modern concept of sepsis is that the host’s immune response to the infection causes most of the symptoms of sepsis, resulting in hemodynamic consequences and damage to organs. This host response has been termed systemic inflammatory response syndrome (SIRS) and is characterized by an elevated heart rate (above 90 beats per minute), high respiratory rate (above 20 breaths per minute or a partial pressure of carbon dioxide in the blood of less than 32), abnormal white blood cell count (above 12,000, lower than 4,000, or greater than 10% band forms) and elevated or lowered body temperature, i.e. under 36 °C (97 °F) or over 38 °C (100 °F). Sepsis is differentiated from SIRS by the presence of a known or suspected pathogen. For example SIRS and a positive blood culture for a pathogen indicates the presence of sepsis. However, in many cases of sepsis no specific pathogen is identified.

This immunological response causes widespread activation of acute-phase proteins, affecting the complement system and the coagulation pathways, which then cause damage to the vasculature as well as to the organs. Various neuroendocrine counter-regulatory systems are then activated as well, often compounding the problem. Even with immediate and aggressive treatment, this may progress to multiple organ dysfunction syndrome and eventually death.

Diagnosis

According to the American College of Chest Physicians and the Society of Critical Care Medicine, there are different levels of sepsis:

Systemic inflammatory response syndrome (SIRS). Defined by the presence of two or more of the following findings:
- Body temperature < 36 °C (97 °F) or > 38 °C (100 °F) (hypothermia or fever).
- Heart rate > 90 beats per minute.
- Respiratory rate > 20 breaths per minute or, on blood gas, a P_aCO₂ less than 32 mm Hg (4.3 kPa) (tachypnea or hypocapnia due to hyperventilation).
- White blood cell count < 4,000 cells/mm³ or > 12,000 cells/mm³ (< 4 × 10⁹ or > 12 × 10⁹ cells/L), or greater than 10% band forms (immature white blood cells). (leukopenia, leukocytosis, or bandemia).
Sepsis. Defined as SIRS in response to a confirmed infectious process. Infection can be suspected or proven (by culture, stain, or polymerase chain reaction (PCR)), or a clinical syndrome pathognomonic for infection. Specific evidence for infection includes WBCs in normally sterile fluid (such as urine or cerebrospinal fluid (CSF)); evidence of a perforated viscus (free air on abdominal x-ray or CT scan; signs of acute peritonitis); abnormal chest x-ray (CXR) consistent with pneumonia (with focal opacification); or petechiae, purpura, or purpura fulminans.
Severe sepsis. Defined as sepsis with organ dysfunction, hypoperfusion, or hypotension.
Septic shock. Defined as sepsis with refractory arterial hypotension or hypoperfusion abnormalities in spite of adequate fluid resuscitation. Signs of systemic hypoperfusion may be either end-organ dysfunction or serum lactate greater than 4 mmol/L. Other signs include oliguria and altered mental status. Patients are defined as having septic shock if they have sepsis plus hypotension after aggressive fluid resuscitation (typically upwards of 6 liters or 40 ml/kg of crystalloid solution).

Examples of end-organ dysfunction include the following:

Lungs
- acute lung injury (ALI) (PaO₂/FiO₂ < 300) or acute respiratory distress syndrome (ARDS) (PaO₂/FiO₂ < 200)
Brain
- encephalopathy
  - symptoms:
    - agitation
    - confusion
    - coma
  - etiologies:
    - ischemia
    - hemorrhage
    - microthrombi
    - microabscesses
    - multifocal necrotizing leukoencephalopathy
Liver
- disruption of protein synthetic function: manifests acutely as progressive coagulopathy due to inability to synthesize clotting factors
- disruption of metabolic functions: manifests as cessation of bilirubin metabolism, resulting in elevated unconjugated serum bilirubin levels (indirect bilirubin)
Kidney
- oliguria and anuria
- electrolyte abnormalities
- volume overload
Heart
- systolic and diastolic heart failure, likely due to cytokines that depress myocyte function
- cellular damage, manifest as a troponin leak (although not necessarily ischemic in nature)

More specific definitions of end-organ dysfunction exist for SIRS in pediatrics.

Cardiovascular dysfunction (after fluid resuscitation with at least 40 ml/kg of crystalloid)
- hypotension with blood pressure < 5th percentile for age or systolic blood pressure < 2 standard deviations below normal for age, OR
- vasopressor requirement, OR
- two of the following criteria:
  - unexplained metabolic acidosis with base deficit > 5 mEq/L
  - lactic acidosis: serum lactate 2 times the upper limit of normal
  - oliguria (urine output < 0.5 ml/kg/hr)
  - prolonged capillary refill > 5 seconds
  - core to peripheral temperature difference > 3°C
Respiratory dysfunction (in the absence of cyanotic heart disease or known chronic lung disease)
- the ratio of the arterial partial-pressure of oxygen to the fraction of oxygen in the gases inspired (PaO₂/FiO₂) < 300 (the definition of acute lung injury), OR
- arterial partial-pressure of carbon dioxide (PaCO₂) > 65 torr (20 mmHg) over baseline PaCO₂ (evidence of hypercapnic respiratory failure), OR
- supplemental oxygen requirement of greater than FiO₂ 0.5 to maintain oxygen saturation ≥ 92%
Neurologic dysfunction
- Glasgow Coma Score (GCS) ≤ 11, OR
- altered mental status with drop in GCS of 3 or more points in a patient with developmental delay/mental retardation
Hematologic dysfunction
- platelet count < 80,000/mm³ or 50% drop from maximum in chronically thrombocytopenic patients, OR
- international normalized ratio (INR) > 2
- Disseminated Intravascular Coagulation
Renal dysfunction
- serum creatinine ≥ 2 times the upper limit of normal for age or 2-fold increase in baseline creatinine in patients with chronic kidney disease
Hepatic dysfunction (only applicable to infants > 1 month)
- total serum bilirubin ≥ 4 mg/dl, OR
- alanine aminotransferase (ALT) ≥ 2 times the upper limit of normal

Consensus definitions, however, continue to evolve, with the latest expanding the list of signs and symptoms of sepsis to reflect clinical bedside experience.

Neonatal sepsis

Main article: Neonatal sepsis

In common clinical usage, sepsis specifically refers to the presence of a bacterial blood stream infection (BSI), such as meningitis, pneumonia, pyelonephritis, or gastroenteritis. in the setting of fever. Criteria with regards to hemodynamic compromise or respiratory failure are not useful clinically because these symptoms often do not arise in neonates until death is imminent and unpreventable.

Treatment

Adults and children

The therapy of sepsis rests on antibiotics, surgical drainage of infected fluid collections, fluid replacement and appropriate support for organ dysfunction. This may include hemodialysis in kidney failure, mechanical ventilation in pulmonary dysfunction, transfusion of blood products, and drug and fluid therapy for circulatory failure. Ensuring adequate nutrition—preferably by enteral feeding, but if necessary by parenteral nutrition—is important during prolonged illness.

A problem in the adequate management of septic patients has been the delay in administering therapy after sepsis has been recognized. Published studies have demonstrated that for every hour delay in the administration of appropriate antibiotic therapy there is an associated 7% rise in mortality. A large international collaboration was established to educate people about sepsis and to improve patient outcomes with sepsis, entitled the “Surviving Sepsis Campaign”. The Campaign has published an evidence-based review of management strategies for severe sepsis, with the aim to publish a complete set of guidelines in subsequent years.

Early goal directed therapy

Early goal directed therapy (EGDT), developed at Henry Ford Hospital by Emaneul Rivers, MD, is a systematic approach to resuscitation that has been validated in the treatment of severe sepsis and septic shock. It is meant to be started in the Emergency Department. The theory is that one should use a step-wise approach, having the patient meet physiologic goals, to optimize cardiac preload, afterload, and contractility, thus optimizing oxygen delivery to the tissues.A recent meta-analysis showed that EGDT provides a benefit on mortality in patients with sepsis. As of December 2008 some controversy around its uses remains and a number of trials are ongoing in an attempt to resolve this.

In EGDT, fluids are administered until the central venous pressure (CVP), as measured by a central venous catheter, reaches 8–12 cm of water (or 10–15 cm of water in mechanically ventilated patients). Rapid administration of several liters of isotonic crystalloid solution is usually required to achieve this. If the mean arterial pressure is less than 65 mmHg or greater than 90 mmHg, vasopressors or vasodilators are given as needed to reach the goal. Once these goals are met, the mixed venous oxygen saturation (SvO2), i.e., the oxygen saturation of venous blood as it returns to the heart as measured at the vena cava, is optimized. If the SvO2 is less than 70%, blood is given to reach a hemoglobin of 10 g/dl and then inotropes are added until the SvO2 is optimized. Elective intubation may be performed to reduce oxygen demand if the SvO2 remains low despite optimization of hemodynamics. Urine output is also monitored, with a minimum goal of 0.5 ml/kg/h. In the original trial, mortality was cut from 46.5% in the control group to 30.5% in the intervention group. The Surviving Sepsis Campaign guidelines recommend EGDT for the initial resuscitation of the septic patient with a level B strength of evidence (single randomized control trial).

Steroids

During critical illness, a state of adrenal insufficiency and tissue resistance (the word ‘relative’ resistance should be avoided) to corticosteroids may occur. This has been termed critical illness–related corticosteroid insufficienc. Treatment with corticosteroids might be most beneficial in those with septic shock and early severe acute respiratory distress syndrome (ARDS), whereas its role in other patients such as those with pancreatitis or severe pneumonia is unclear. These recommendations stem from studies showing benefits from low dose hydrocortisone treatment for septic shock patients and methylprednisolone in ARDS patients.However, the exact way of determining corticosteroid insufficiency remains problematic. It should be suspected in those poorly responding to resuscitation with fluids and vasopressors. ACTH stimulation testing is not recommended to confirm the diagnosis. The method of cessation of glucocorticoid drugs is variable, and it is unclear whether they should be weaned or simply stopped abruptly.

Activated protein C

Recombinant activated protein C (drotrecogin alpha) in a 2011 Cochrane review was found not to decrease mortality and thus was not recommended for use. Other reviews however comment that it may be effective in those with very severe disease.

Neonates

Main article: Neonatal sepsis

Note that, in neonates, sepsis is difficult to diagnose clinically. They may be relatively asymptomatic until hemodynamic and respiratory collapse is imminent, so, if there is even a remote suspicion of sepsis, they are frequently treated with antibiotics empirically until cultures are sufficiently proven to be negative.

Prognosis

Prognosis can be estimated with the MEDS score. Approximately 20–35% of patients with severe sepsis and 40–60% of patients with septic shock die within 30 days. Others die within the ensuing 6 months. Late deaths often result from poorly controlled infection, immunosuppression, complications of intensive care, failure of multiple organs, or the patient’s underlying disease.

Prognostic stratification systems such as APACHE II indicate that factoring in the patient’s age, underlying condition, and various physiologic variables can yield estimates of the risk of dying of severe sepsis. Of the individual covariates, the severity of underlying disease most strongly influences the risk of dying. Septic shock is also a strong predictor of short- and long-term mortality. Case-fatality rates are similar for culture-positive and culture-negative severe sepsis.

Some patients may experience severe long term cognitive decline following an episode of severe sepsis, but the absence of baseline neuropsychological data in most sepsis patients makes the incidence of this difficult to quantify or to study. A preliminary study of nine patients with septic shock showed abnormalities in seven patients by MRI.

Epidemiology

In the United States, sepsis is the second-leading cause of death in non-coronary ICU patients, and the tenth-most-common cause of death overall according to data from the Centers for Disease Control and Prevention (the first being heart disease). Sepsis is common and also more dangerous in elderly, immunocompromised, and critically ill patients. It occurs in 1–2% of all hospitalizations and accounts for as much as 25% of intensive-care unit (ICU) bed utilization. It is a major cause of death in intensive-care units worldwide, with mortality rates that range from 20% for sepsis to 40% for severe sepsis to >60% for septic shock.

Research

PD-1 and monocytes/macrophages activation

PD-1 was found to be up-regulated on monocytes/macrophages during sepsis in human and mice. This up-regulation was related to the up-regulation of IL-10 levels in the blood. Interestingly, Said et al. showed that activated monocytes, which is the case in sepsis, express high levels of PD-1 and that triggering monocytes-expressed PD-1 by its ligand PD-L1 induces IL-10 production which inhibits CD4 T-cell function.

Inflammatory signal blocker

A study reported in Science (journal) showed that SphK1 is highly elevated in inflammatory cells from patients with sepsis and inhibition of the molecular pathway reduced the proinflammatory response triggered by bacterial products in the human cells. Moreover, the study also showed the mortality rate of mice with experimental sepsis was reduced when treated with a SphK1 blocker. Similarly, inhibition of the p38 MAPK signaling transduction pathway may help to block enhanced procoagulatory activities during septicemia.

Nitric oxide

Medical research is focused on combating nitric oxide. Attempts to inhibit its production paradoxically led to a worsening of the organ damage and in an increased lethality, both in animal models and in a clinical trial in sepsis patients. In a study published in the Journal of Experimental Medicine, nitrite treatment, in sharp contrast with the worsening effect of inhibiting NO-synthesis, significantly attenuates hypothermia, mitochondrial damage, oxidative stress and dysfunction, tissue infarction, and mortality in mice^.

Candida

Mony — Wed, 18 May 2011 22:59:20 +0000

Candida is Fungus
Candida is a genus of yeasts. Many species are harmless commensals or endosymbionts of animal hosts including humans, but other species, or harmless species in the wrong location, can cause disease. Candida albicans can cause infections (candidiasis or thrush) in humans and other animals, especially in immunocompromised patients. Many species are found in gut flora, including C. albicans in mammalian hosts, whereas others live as endosymbionts in insect hosts.

Systemic infections of the bloodstream and major organs, particularly in immunocompromised patients, affect over 90,000 people a year in the U.S., with a 40-50% mortality.

The DNA of several Candida species have been sequenced.

Antibiotics promote yeast infections, including gastrointestinal candida overgrowth, and penetration of the GI mucosa.

Some practitioners of alternative medicine claim that Candida overgrowth can cause many health problems, including fatigue to weight gain, but traditional doctors reject this.

Candida antarctica is a source of industrially important lipases.

Laboratory characteristics

Grown in the laboratory, Candida appears as large, round, white or cream (albicans is from Latin meaning ‘whitish’) colonies with a yeasty odor on agar plates at room temperature.^[9] C. albicans ferments glucose and maltose to acid and gas, sucrose to acid, and does not ferment lactose, which help to distinguish it from other Candida species.^[10]

Clinical characteristics

Main article: candidiasis

Candida are almost universal on normal adult skin and albicans is part of the normal flora of the mucous membranes of the respiratory, gastrointestinal, and female genital tracts which cause no disease.

But overgrowth of several species including albicans can cause superficial infections such as oropharyngeal candidiasis (thrush) and vulvovaginal candidiasis (vaginal Candidiasis). Oral candidiasis is common in elderly denture wearers. In otherwise healthy individuals, these infections can be cured with topical or systemic antifungal medications(commonly over-the-counter treatments like miconazole or clotrimazole). In debilitated or immunocompromised patients, or if introduced intravenously, candidiasis may become a systemic disease producing abscess, thrombophlebitis, endocarditis, or infections of the eyes or other organs. Large intravenous injections into mice or rabbits result in widespread abscesses in the kidney or elsewhere and death in less than a week.

Colonization of the gastrointestinal tract by C. albicans after antibiotic therapy usually causes no symptoms and may also result from taking antacids or antihyperacidity drugs.

Species

Among Candida species, C. albicans, which is a normal constituent of the human flora, a commensal of the skin and the gastrointestinal and genitourinary tracts, is responsible for the majority of Candida bloodstream infections (candidemia). Yet, there is an increasing incidence of infections caused by C. glabrata, which could be because it is frequently less susceptible to the currently used azole antifungals. Other medically important Candida species include C. parapsilosis, C. tropicalis, and C. dubliniensis.

Other Candida species, such as C. oleophila have been used as biological control agents in fruit.

Alternative medicine therapies

Many practitioners of alternative medicine use the term Candida to refer to a complex with broad spectrum of symptoms, the majority of which center around gastrointestinal distress, rashes, sore gums and other miscellaneous symptoms. Candida is accorded responsibility for symptoms as specific as hay fever, as vague as “brain fog” and as common as weight gain or flatulence. These symptoms are attributed by some alternative medicine practitioners to the “overgrowth” of intestinal candida albicans, which they claim leads to the spread of the yeast to other parts of the body via the digestive tract and bloodstream.

Use of the term Candida in alternative medicine to describe this complex is unassociated with its use in clinical medicine to refer to the fungus that causes vaginal yeast infections and thrush. This can be confusing for patients. No studies have proved that having intestinal candidiasis causes any symptoms of illness.

To treat what they refer to as Candida, some alternative medicine practitioners have recommended avoiding antibiotics, birth control pills, and foods that are high in sugar or yeast, ostensibly to “eliminate excess yeast” in the body. However, there is little clinically valid evidence that these “candida cleanse” treatments treat intestinal candidiasis effectively, or cure any of the symptoms claimed by the proponents of the hypothesis.

The probiotic Saccharomyces boulardii is undergoing much research as of late, demonstrating its ability to diminish levels of Candida in the body. This is hence one of the specific probiotic strains often recommended alongside a more general probiotic, for anyone on a Candida cleanse or Candida diet.

For best result of controling the candida spread: Avoid Sweets, Tomatoes, Any Mushrooms, Citrus and Pineapple.

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Alkaline/Acid, Mony’s list

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Olive Oil – is it safe to eat

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Female prostate gland

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Zones

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Male sexual response

Vasectomy and risk of prostate cancer

Stenting the prostate

Rebounders – Recommendations

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I Think this article is right on and is a great info resource . – Mony What Most Doctors Won’t Tell You About Colds and Flus. By Dr. Ben Kim

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I Think this article is right on and is a great info resource . – Mony
What Most Doctors Won’t Tell You About Colds and Flus. By Dr. Ben Kim