Botanical Name : Salvia Divinorum Family: Lamiaceae Genus: Salvia Species:S. divinorum Kingdom:Plantae Order: Lamiales
Common Names: Sage of the diviners, Ska maría pastora, Seer’s sage, Yerba de la pastora and just Salvia
Habitat : Salvia divinorum is endemic to the Sierra Mazateca in the state of Oaxaca in Mexico, growing in the primary or secondary cloud forest and tropical evergreen forest at elevations from 300 to 1,830 metres (980 to 6,000 ft). Its most common habitat is black soil along stream banks where small trees and bushes provide an environment of low light and high humidity.
Salvia divinorum has large green ovate (often also dentate) leaves, with a yellow undertone that reach 10 to 30 cm (4 to 12 in) long. The leaves have no hairs on either surface, and little or no petiole. The plant grows to well over 1 metre (3 ft) in height, on hollow square stems which tend to break or trail on the ground, with the plant rooting quite readily at the nodes and internodes.
The flowers, which bloom only rarely, grow in whorls on a 30-centimetre (12 in) inflorescence, with about six flowers to each whorl. The 3-centimetre (1.2 in) flowers are white, curved and covered with hairs, and held in a small violet calyx that is covered in hairs and glands. When it does bloom in its native habitat, it does so from September to May.
Blooms occur when the day length becomes shorter than 12 hours (beginning in mid-October in some places), necessitating a shade cloth in urban environments with exposure to light pollution (HPS)
Early authors erred in describing the flowers as having blue corollas, based on Epling and Játiva‘s description. The first plant material they received was dried, so they based the flower color on an erroneous description by Hofmann and Wasson, who didn’t realize that their “blue flowers, crowned with a white dome” were in fact violet calyces with unopened white corollas.
Seeds: Salvia seeds are very rare because the plant does not often produce them. This is because salvia wild genetics are scarce. Most of todays salvia divinorum plants are propogated in the wild. This is why over the past few decades they have stopped producing seeds. ..CLICK & SEE
Cultivation: Propagation by cuttings:-
Salvia divinorum is usually propagated through vegetative reproduction. Small cuttings, between two and eight inches long, cut off of the mother plant just below a node, will usually root in plain tap water within two or three weeks
Traditional Mazatec healers have used Salvia divinorum to treat medical and psychiatric conditions conceptualized according to their traditional framework. Some of the conditions for which they use the herb are easily recognizable to Western medical practitioners (e.g colds, sore throats, constipation and diarrhea) and some are not, e.g. ‘fat lambs belly’ which is said to be due to a ‘stone’ put in the victims belly by means of evil witchcraft. Some alternative healers and herbalists are exploring possible uses for Salvia. The problems in objectively evaluating such efforts and ‘sorting the wheat from the chaff’ are considerable. There are no accepted uses for Salvia divinorum in standard medical practice at this time. A medical exploration of some possible uses suggested by Mazatec healing practice is in order in such areas as cough suppression (use to treat colds), and treatment of congestive heart failure and ascites (is ‘fat lamb’s belly’ ascites?). Some other areas for exploration include Salvia aided psychotherapy (there is anecdotal material supporting its usefulness in resolving pathological grief), use of salvinorin as a brief acting general or dissociative anesthetic agent, use to provide pain relief, use in easing both the physical and mental suffering of terminal patients as part of hospice care, and a possible antidepressant effect.
Disclaimer : The information presented herein is intended for educational purposes only. Individual results may vary, and before using any supplement, it is always advisable to consult with your own health care provider. Resources:
Arteries have thick walls to withstand normal blood pressure. However, certain medical problems, genetic conditions, and trauma can damage or injure artery walls. The force of blood pushing against the weakened or injured walls can cause an aneurysm.
An aneurysm can grow large and burst (rupture) or cause a dissection. Rupture causes dangerous bleeding inside the body. A dissection is a split in one or more layers of the artery wall. The split causes bleeding into and along the layers of the artery wall.
Aneurysms most commonly occur in arteries at the base of the brain (the circle of Willis) and in the aorta (the main artery coming out of the heart, a so-called aortic aneurysm). As the size of an aneurysm increases, there is an increased risk of rupture, which can result in severe hemorrhage, other complications or even death.
Most aneurysms occur in the aorta—the main artery that carries blood from the heart to the rest of the body. The aorta goes through the chest and abdomen.
An aneurysm that occurs in the part of the aorta that’s in the chest is called a thoracic (tho-RAS-ik) aortic aneurysm. An aneurysm that occurs in the part of the aorta that’s in the abdomen is called an abdominal aortic aneurysm.Aneurysms also can occur in other arteries, but these types of aneurysm are less common.
About 14,000 Americans die each year from aortic aneurysms. Most of the deaths result from rupture or dissection.
Early diagnosis and medical treatment can help prevent many cases of rupture and dissection. However, aneurysms can develop and become large before causing any symptoms. Thus, people who are at high risk for aneurysms can benefit from early, routine screening.
Abdominal Aortic Aneurysms:
An aneurysm that occurs in the part of the aorta that’s located in the abdomen is called an abdominal aortic aneurysm. AAAs account for 3 in 4 aortic aneurysms. They’re found more often now than in the past because of computed tomography (to-MOG-rah-fee), or CT, scans done for other medical problems.
Small AAAs rarely rupture. However, an AAA can grow very large without causing symptoms. Thus, routine checkups and treatment for an AAA are important to prevent growth and rupture.
Thoracic Aortic Aneurysms:
An aneurysm that occurs in the part of the aorta that’s located in the chest and above the diaphragm is called a thoracic aortic aneurysm. TAAs account for 1 in 4 aortic aneurysms.
TAAs don’t always cause symptoms, even when they’re large. Only half of all people who have TAAs notice any symptoms. TAAs are found more often now than in the past because of chest CT scans done for other medical problems.
With a common type of TAA, the walls of the aorta weaken, and a section close to the heart enlarges. As a result, the valve between the heart and the aorta can’t close properly. This allows blood to leak back into the heart.
A less common type of TAA can develop in the upper back, away from the heart. A TAA in this location may result from an injury to the chest, such as from a car crash.
Other Types of Aneurysms:- Brain Aneurysms
When an aneurysm occurs in an artery in the brain, it’s called a cerebral (seh-RE-bral or SER-eh-bral) aneurysm or brain aneurysm. Brain aneurysms also are sometimes called berry aneurysms because they’re often the size of a small berry. CLICK TO SEE
The illustration shows a typical location of a brain (berry) aneurysm in the arteries supplying blood to the brain. The inset image shows a closeup view of the sac-like aneurysm.
Most brain aneurysms cause no symptoms until they become large, begin to leak blood, or rupture. A ruptured brain aneurysm causes a stroke.
Aneurysms that occur in arteries other than the aorta and the brain arteries are called peripheral aneurysms. Common locations for peripheral aneurysms include the popliteal (pop-li-TE-al), femoral (FEM-o-ral), and carotid (ka-ROT-id) arteries.
The popliteal arteries run down the back of the thighs, behind the knees. The femoral arteries are the main arteries in the groin. The carotid arteries are the two main arteries on each side of your neck.
Peripheral aneurysms aren’t as likely to rupture or dissect as aortic aneurysms. However, blood clots can form in peripheral aneurysms. If a blood clot breaks away from the aneurysm, it can block blood flow through the artery.
If a peripheral aneurysm is large, it can press on a nearby nerve or vein and cause pain, numbness, or swelling.
Symptoms are linked to how big the aneurysm is, how fast it is growing and its location. Very small aneurysms which do not grow may go completely unnoticed. A large cerebral aneurysm (in the brain) may press on nerve tissue and trigger numbness in the face, or problems with the eyes.
Cerebral (brain) aneurysm symptoms:
The following symptoms may be experienced before a cerebral aneurysm ruptures:
Very severe headache that occurs suddenly
#Loss of consciousness
#A drooping eyelid
If the cerebral aneurism bursts it will cause bleeding in the brain and a hemorrhagic stroke – it can also cause intracranial hematoma (blood leaks into the area surrounding the brain causing a blood clot in the skull).
Aortic aneurysm symptoms:
The vast majority of aortic aneurysms occur in the patient’s abdominal aorta. It is not uncommon for a patient to have an aneurysm and experience no symptoms for several years. Many of them are difficult to detect because of this. Some aortic aneurysms will never rupture. It is hard to predict which ones will never grow, which grow slowly, and which ones grow rapidly.
When symptoms occur, they tend to include:
A throbbing sensation in the abdomen
#Abdominal pain – this pain frequently spreads towards the back If the aneurysm continues to grow and presses on the spine or chest organs the patient may #experience:
#Loss of voice
Sometimes an aortic aneurysm can be discovered by a GP (general practitioner, primary care physician) when performing a routine examination of the abdomen. He/she may detect a lump that pulses at the same rate as the patient’s heartbeat – it is often located high up in the abdomen, slightly to the right.
The force of blood pushing against the walls of an artery combined with damage or injury to the artery’s walls can cause an aneurysm.
A number of factors can damage and weaken the walls of the aorta and cause aortic aneurysms.
Aging, smoking, high blood pressure, and atherosclerosis (ath-er-o-skler-O-sis) are all factors that can damage or weaken the walls of the aorta. Atherosclerosis is the hardening and narrowing of the arteries due to the buildup of a fatty material called plaque (plak).
Rarely, infections, such as untreated syphilis (a sexually transmitted infection), can cause aortic aneurysms. Aortic aneurysms also can occur as a result of diseases that inflame the blood vessels, such as vasculitis (vas-kyu-LI-tis).
Family history also may play a role in causing aortic aneurysms.
In addition to the factors above, certain genetic conditions may cause thoracic aortic aneurysms (TAAs). Examples include Marfan syndrome, Loeys-Dietz syndrome, and Ehlers-Danlos syndrome (the vascular type).
These conditions can weaken the body’s connective tissues and damage the aorta. People who have these conditions tend to develop aneurysms at a younger age and are at higher risk for rupture or dissection.
Trauma, such as a car accident, also can damage the aorta walls and lead to TAAs.
Researchers continue to look for other causes of aortic aneurysms. For example, they’re looking for genetic mutations that may contribute to or cause aneurysms.
Who Is At Risk for an Aneurysm? Certain factors put you at higher risk for an aortic aneurysm. These include:
#Male gender. Men are more likely than women to have abdominal aortic aneurysms (AAAs)-the most common type of aneurysm. #Age. The risk for AAAs increases as you get older. These aneurysms are more likely to occur in people who are 65 or older. #Smoking. Smoking can damage and weaken the walls of the aorta. #Family history of aortic aneurysm. People who have family histories of aortic aneurysm are at higher risk of having one, and they may have aneurysms before the age of 65. #Certain diseases and conditions that weaken the walls of the aorta. For more information.
Car accidents or trauma also can injure the arteries and increase your risk for an aneurysm. Diagnosis:–
If you have aortic aneurysm, but no symptoms, your doctor may find it by chance during a routine physical exam. More often, doctors find aneurysms during tests done for other reasons, such as chest or abdominal pain.
If you have an abdominal aortic aneurysm (AAA), your doctor may feel a throbbing mass in your abdomen. A rapidly growing aneurysm about to rupture can be tender and very painful when pressed. If you’re overweight or obese, it may be hard for your doctor to feel even a large AAA.
If you have an AAA, your doctor may hear rushing blood flow instead of the normal whooshing sound when listening to your abdomen with a stethoscope.
Your primary care doctor may refer you to a cardiothoracic or vascular surgeon for diagnosis and treatment of an aortic aneurysm.
A cardiothoracic surgeon performs surgery on the heart, lungs, and other organs and structures in the chest, including the aorta. A vascular surgeon performs surgery on the aorta and other blood vessels, except those of the heart and brain.
Diagnostic Tests and Procedures:-
To diagnose and evaluate an aneurysm, your doctor may recommend one or more of the following tests.
This simple, painless test uses sound waves to create pictures of the structures inside your body. Ultrasound shows the size of an aneurysm, if one is found.
Computed Tomography Scan:
A computed tomography (CT) scan is a painless test that uses x rays to take clear, detailed pictures of your internal organs.
During the test, your doctor will inject a special dye into a vein in your arm. This dye highlights the aorta on the CT scan images.
Your doctor may recommend this test if he or she thinks you have an AAA or a thoracic aortic aneurysm (TAA). A CT scan can show the size and shape of an aneurysm. This test provides more detailed images than an ultrasound.
Magnetic Resonance Imaging:
Magnetic resonance imaging (MRI) uses magnets and radio waves to create images of the organs and structures in your body. This test is very accurate at detecting aneurysms and pinpointing their size and exact location.
Angiography (an-jee-OG-ra-fee) uses a special dye injected into the bloodstream to highlight the insides of arteries on x-ray pictures. An angiogram shows the amount of damage and blockage in blood vessels.
An angiogram of the aorta is called an aortogram. An aortogram may show the location and size of an aortic aneurysm.
Treatment: Aortic aneurysm treatment:
The aim is to prevent the aneurysm from bursting. There are usually two choices – 1. Watch and wait. 2. Surgery. How big the aneurysm is, how fast it’s growing, and sometimes its location are vital factors in determining what treatment to use.
#If the aneurysm is small – if the patient’s aneurysm is no bigger than 1.6 inches (about 4cm) in diameter, and there are no symptoms, it may be best to tack the approach of watching-and-waiting, instead of surgery. This is also known as “watchful waiting”. In most cases the risks caused by surgery are greater than the likely risks caused by a small aneurysm. Watchful waiting usually involves an ultrasound scan every 6 to 12 months. The patient will be asked to be alert for any signs or symptoms of dissection or rupture.
Small observational studies have suggested that statins can significantly reduce the growth rate of small abdominal aortic aneurysms, Janet T. Powell, M.D., Ph.D., Professor at Imperial College and Honorary Consultant for United Healthcare in London revealed.
#If the aneurysm is medium-sized – a medium-sized aneurysm is no bigger than 2.2 inches (5.5 cm) in diameter and bigger than 1.6 inches (4 cm). It is more difficult now to weigh up the risks of surgery against the risks of a medium-sized aneurysm. The chances of both patient and doctor deciding on one or the other are pretty even.
#Large-sized or rapidly-growing aneurysm – a large aneurysm is larger than 2.2 inches (5.5 cm) in diameter, while a rapidly growing one is expanding at more than 0.5 cm every six months. In most cases the patient will require surgery. The damaged section of the aorta will be removed and replaced with a graft (synthetic tube) which is sewn into place. This is major surgery – open-abdominal or open-chest surgery. The patient will take several months to recover completely.
Endovascular surgery – this is a less invasive procedure to repair an aneurysm. A graft is attached to the end of the catheter which is inserted through an artery and threaded up into the aorta. The graft – consisting of a woven tube covered by a metal mesh support – is placed at the site of the aneurysm and stuck there will pins or small hooks. This graft strengthens the weakened section of the aorta and prevents the aneurysm from rupturing. Patients recover much faster with this procedure, and seem to have fewer complications.
CLICK TO SEE
The illustration shows the placement of an endovascular stent graft in an aortic aneurysm. In figure A, a catheter is inserted into an artery in the groin (upper thigh). The catheter is threaded to the abdominal aorta, and the stent graft is released from the catheter. In figure B, the stent graft allows blood to flow through the aneurysm.
Endovascular repair reduces recovery time to a few days and greatly reduces time in the hospital. However, doctors can’t repair all aortic aneurysms with this procedure. The location or size of the aneurysm may prevent a stent graft from being safely or reliably placed inside the aneurysm.
Long-term survival for patients undergoing surgical repair of intact abdominal aortic aneurysms has improved in recent decades, according to a Swedish study.
Thoracic aortic aneurysm treatment:
Surgery is usually required as soon as the aneurysm reaches a diameter of 2.2 inches (5.5 cm). Patients with Marfan syndrome, as well as those with close relative who had an aortic dissection may undergo surgery if the aneurysm is smaller. Beta blockers have been shown to slow down the growth of thoracic aortic aneurysms for patients with Marfan syndrome.
Patients with brain aneurysms have two options if the aneurysm has ruptured: 1. Surgical clipping. 2. Endovascular coiling.
#Surgical clipping – the aneurysm is closed off. The surgeon removes a section of the skull to get to the aneurysm and finds the blood vessel that feeds it. A tiny metal clip is placed on the neck of the aneurysm to block off the blood flow to it.
#Endovascular coiling – a catheter is inserted, usually in the groin, and is threaded through the body to the brain where the aneurysm is located. A guide wire is used to push a soft platinum wire through the catheter and into the aneurysm. The wire coils up inside the aneurysm and disrupts the blood flow, making it clot. The clotting of the blood effectively seals off the aneurysm from the artery.
#Endovascular, noninvasive thoracic aortic aneurysm repair (TEVAR) is safer than open aneurysm repair (OAR) as it is associated with fewer cardiac, respiratory, and hemorrhagic complications, as well as a shorter hospital stay, this study revealed.
Patients whose aneurysms are coiled instead of clipped have a better survival rate over five years, according to a long-term study of the International Subarachnoid Aneurysm Trial (ISAT). However, another study found that over time outcomes are similar.
Smokers who undergo coil embolization are at a high risk of having another aneurism elsewhere later on, this study revealed .
The following cerebral aneurysm treatments help relieve symptoms as well as managing complications:
#Painkillers – usually for headaches.
#Calcium channel blockers – these stop calcium for entering cells of the blood vessel walls. They reduce the amount of widening and narrowing of blood vessels; often a complication of a ruptured aneurysm.
#A vassopressor – this is an injected drug which raises blood pressure; widens blood vessels which have remained stubbornly narrowed. The aim is to prevent stroke.
#Anti-seizure drugs – seizures may occur after an aneurysm has ruptures. Examples include levetiracetam (Keppra), phenytoin (Dilantin, Phenytek, others) and valproic acid (Depakene).
#A ventricular catheter – this can reduce the pressure on the brain caused by hydrocephalus (excess cerebrospinal fluid). The catheter, which is placed in the spaces filled with fluid inside the brain, drains the excess liquid into an external bag. It may be necessary to place a shunt system – a shunt (flexible silicone rubber tube) and a valve. The shunt system is a drainage channel that starts in the brain and ends in the patient’s abdominal cavity.
#Rehabilitation therapy – sometimes a subarachnoid hemorrhage causes brain damage, resulting in impaired speech and bodily movements. Rehabilitation therapy helps the patient relearn vital skills.
Unruptured cerebral aneurysm treatment:
The unruptured cerebral aneurysm can be sealed off with surgical clipping or endovascular coiling. Deciding on this is not easy as the risks are often equal, and sometimes higher than the potential benefits. The following will help the surgeon determine what to do:
#Exactly where the aneurysm is.
#How big the aneurysm is.
#The patient’s age.
#The patient’s general state of health
#Whether the patient has a family history of ruptured aneurysms.
#Whether the patient has any congenital conditions which may raise the risk of the aneurysm rupturing.
Patients with hypertension (high blood pressure) need to have their condition carefully monitored – proper control of hypertension significantly reduces the likelihood of a rupture. Prevention:
The best way to prevent an aortic aneurysm is to avoid the factors that put you at higher risk for one. You can’t control all of the risk factors for aortic aneurysm, but lifestyle changes can help you reduce some risks.
Lifestyle changes include quitting smoking and controlling conditions such as high blood pressure and high blood cholesterol.
Talk to your doctor about programs and products that can help you quit smoking. Also try to avoid secondhand smoke.
Follow a healthy diet and be as physically active as you can. A healthy diet includes a variety of fruits, vegetables, and whole grains.
It also includes lean meats, poultry, fish, beans, and fat-free or low-fat milk or milk products. A healthy diet is low in saturated fat, trans fat, cholesterol, sodium (salt), and added sugar.
For more information on following a healthy diet, see the National Heart, Lung, and Blood Institute’s (NHLBI’s) Aim for a Healthy Weight Web site, “Your Guide to a Healthy Heart,” and “Your Guide to Lowering Your Blood Pressure With DASH.” All of these resources include general information about healthy eating.
Talk to your doctor about the amounts and types of physical activity that are safe for you. For more information on physical activity, see the Diseases and Conditions Index Physical Activity and Your Heart article and NHLBI’s “Your Guide to Physical Activity and Your Heart.”
Follow your treatment plans for any other medical conditions you have. Take all of your medicines as prescribed.
Disclaimer: This information is not meant to be a substitute for professional medical advise or help. It is always best to consult with a Physician about serious health concerns. This information is in no way intended to diagnose or prescribe remedies.This is purely for educational purpose.
The aorta is the largest artery in your body, and it carries oxygen-rich blood pumped out of, or away from, your heart. Your aorta runs through your chest, where it is called the thoracic aorta. When it reaches your abdomen, it is called the abdominal aorta. The abdominal aorta supplies blood to the lower part of the body. In the abdomen, just below the navel, the aorta splits into two branches, called the iliac arteries, which carry blood into each leg.
When a weak area of the abdominal aorta expands or bulges, it is called an abdominal aortic aneurysm (AAA). The pressure from blood flowing through your abdominal aorta can cause a weakened part of the aorta to bulge, much like a balloon. A normal aorta is about 1 inch (or about 2 centimeters) in diameter. However, an AAA can stretch the aorta beyond its safety margin as it expands. Aneurysms are a health risk because they can burst or rupture. A ruptured aneurysm can cause severe internal bleeding, which can lead to shock or even death.
Less commonly, AAA can cause another serious health problem called embolization. Clots or debris can form inside the aneurysm and travel to blood vessels leading to other organs in your body. If one of these blood vessels becomes blocked, it can cause severe pain or even more serious problems, such as limb loss.
Each year, physicians diagnose approximately 200,000 people in the United States with AAA. Of those 200,000, nearly 15,000 may have AAA threatening enough to cause death from its rupture if not treated.
Fortunately, especially when diagnosed early before it causes symptoms, an AAA can be treated, or even cured, with highly effective and safe treatments.
Although you may initially not feel any symptoms with AAA, if you develop symptoms, you may experience one or more of the following:
*A pulsing feeling in your abdomen, similar to a heartbeat
*Severe, sudden pain in your abdomen or lower back. If this is the case, your aneurysm may be about to burst.
*On rare occasions, your feet may develop pain, discoloration, or sores on the toes or feet because of material shed from the aneurysm
*If your aneurysm bursts, you may suddenly feel intense weakness, dizziness, or pain, and you may eventually lose consciousness. This is a life-threatening situation and you should seek medical attention immediately.
Physicians and researchers are not quite sure what actually causes an AAA to form in some people. The leading thought is that the aneurysm may be caused by inflammation in the aorta, which may cause its wall to weaken or break down. Some researchers believe that this inflammation can be associated with atherosclerosis (also called hardening of the arteries) or risk factors that contribute to atherosclerosis, such as high blood pressure (hypertension) and smoking. In atherosclerosis fatty deposits, called plaque, build up in an artery. Over time, this buildup causes the artery to narrow, stiffen and possibly weaken. Besides atherosclerosis, other factors that can increase your risk of AAA include:
*Being a man older than 60 years
*Having an immediate relative, such as a mother or brother, who has had AAA
*Having high blood pressure
Your risk of developing AAA increases as you age. AAA is more common in men than in women.
Tests and Diagnosis: Most abdominal aortic aneurysms are found during an examination for another reason. For example, during a routine exam, your doctor may feel a pulsating bulge in your abdomen, though it’s unlikely your doctor will be able to hear signs of an aneurysm through a stethoscope. Aortic aneurysms are often found during routine medical tests, such as a chest X-ray or ultrasound of the heart or abdomen, sometimes ordered for a different reason.
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Abdominal aortic aneurysms that are not causing symptoms are most often found when a physician is performing an imaging test, such as an ultrasound or CT scan, for another condition. Sometimes your physician may feel a large pulsing mass in your abdomen on a routine physical examination. If your physician suspects that you may have AAA, he or she may recommend one of the following tests to confirm the suspicion:
Modern Treatment: Watchful waiting
If your AAA is small, your physician may recommend “watchful waiting,” which means that you will be monitored every 6-12 months for signs of changes in the aneurysm size. Your physician may schedule you for regular CT scans or ultrasounds to watch the aneurysm. This method is usually used for aneurysms that are smaller than about 2 inches (roughly 5.0 to 5.5 centimeters) in diameter. If you also have high blood pressure, your physician may prescribe blood pressure medication to lower the pressure on the weakened area of the aneurysm. If you smoke, you should obtain help to stop smoking. An aneurysm will not “go away” by itself. It is extremely important to continue to follow up with your physician as directed because the aneurysm may enlarge to a dangerous size over time. It could eventually burst if this is not detected and treated. Click for more knowledge on Treatments and drugs
Open Surgical aneurysm repair…….click & see
A vascular surgeon may recommend that you have a surgical procedure called open aneurysm repair if your aneurysm is causing symptoms, or is larger than about 2 inches (roughly 5.0 to 5.5 centimeters), or is enlarging under observation. During an open aneurysm repair, also known as surgical aneurysm repair, your surgeon makes an incision in your abdomen and replaces the weakened part of your aorta with a tube-like replacement called an aortic graft. This graft is made of a strong, durable, man-made plastic material, such as Dacron®, in the size and shape of the healthy aorta. The strong tube takes the place of the weakened section in your aorta and allows your blood to pass easily through it. Following the surgery, you may stay in the hospital for 4 to 7 days. Depending upon your circumstances, you may also require 6 weeks to 3 months for a complete recovery. More than 90 percent of open aneurysm repairs are successful for the long term.
Endovascular stent graft…….....click & see
Instead of open aneurysm repair, your vascular surgeon may consider a newer procedure called an endovascular stent graft. Endovascular means that the treatment is performed inside your artery using long, thin tubes called catheters that are threaded through your blood vessels. This procedure is less invasive, meaning that your surgeon will usually need to make only small incisions in your groin area through which to thread the catheters. During the procedure, your surgeon will use live x-ray pictures viewed on a video screen to guide a fabric and metal tube, called an endovascular stent graft (or endograft), to the site of the aneurysm. Like the graft in open surgery, the endovascular stent graft also strengthens the aorta. Your recovery time for endovascular stent grafting is usually shorter than for the open surgery, and your hospital stay may be reduced to 2 to 3 days. However, this procedure requires more frequent follow-up visits with imaging procedures, usually CT scans, after endograft placement to be sure the graft continues to function properly. Also, the endograft is more likely to require periodic maintenance procedures than does the open procedure. In addition, your aneurysm may not have the shape that is suitable for this procedure, since not all patients are candidates for endovascular repair because of the extent of the aneurysm, or its relationship to the renal (kidney) arteries, or other issues. While the endovascular stent graft may be a good option for some patients who have suitable aneurysms and who have medical conditions increasing their risk, in some other cases, open aneurysm repair may still be the best way to cure AAA. Your vascular surgeon will help you decide what is the best method of treatment for your particular situation.
Endovascular treatment of AAA……...click & see
In the recent years, the endoluminal treatment of Abdominal Aortic Aneurysms has emerged as a minimally invasive alternative to open surgery repair. The first endoluminal exclusion of an aneurysm took place in Argentina by Dr. Parodi and his colleagues in 1991. The endovascular treatment of aortic aneurysms involves the placement of an endo-vascular stent via a percutaneous technique (usually through the femoral arteries) into the diseased portion of the aorta. This technique has been reported to have a lower mortality rate compared to open surgical repair, and is now being widely used in individuals with co-morbid conditions that make them high risk patients for open surgery. Some centers also report very promising results for the specific method in patients that do not constitute a high surgical risk group.
There have also been many reports concerning the endovascular treatment of ruptured Abdominal Aortic Aneurysms, which are usually treated with an open surgery repair due to the patient’s impaired overall condition. Mid-term results have been quite promising. However, according to the latest studies, the EVAR procedure doesn’t carry any overall survival benefit.
Endovascular treatment of other aortic aneurysms
The endoluminal exclusion of aortic aneurysms has seen a real revolution in the very recent years. It is now possible to treat thoracic aortic aneurysms, abdominal aortic aneurysms and other aneurysms in most of the body’s major arteries (such as the iliac and the femoral arteries) using endovascular stents and avoiding big incisions. Still, in most cases the technique is applied in patients at high risk for surgery as more trials are required in order to fully accept this method as the gold standard for the treatment of aneurysms.
Click for Alternative Treatment Prevention
Attention to patient’s general blood pressure, smoking and cholesterol risks helps reduce the risk on an individual basis. There have been proposals to introduce ultrasound scans as a screening tool for those most at risk: men over the age of 65. The tetracycline antibiotic, Doxycycline is currently being investigated for use as a potential drug in the prevention of aortic aneurysm due to its metalloproteinase inhibitor and collagen stabilising properties.
Stanford University is conducting research to gather information on AAA risk factors, and to evaluate the effectiveness of an exercise program at preventing the growth of small AAAs in older individuals.
Disclaimer: This information is not meant to be a substitute for professional medical advise or help. It is always best to consult with a Physician about serious health concerns. This information is in no way intended to diagnose or prescribe remedies.This is purely for educational purpose.
Two recent TheraVitae patients who made their way across the globe to receive Vescell Adult Stem Cell therapy for their heart conditions. Both men are profiled in their local newspapers and their stories here.
In the first article, Florida native, Jack Bodolay has his story told in The Ledger, a prominent newspaper in Central Florida.
In the second article, the East Oregonian details the exploits of James â€œSupermanâ€ Burns and talks about his new mission to spread the word about the wonders of adult stem cell therapy.
Take Heart: Stem Cell Therapy Found to Be promising
By Robin Williams Adams
LAKELAND — Businessman Jack Bodolay went to Thailand for help when Florida doctors couldn’t do anything more to boost his failing heart.
Stem cells from his blood were multiplied by the millions and put into his heart in an experimental procedure to improve the heart’s ability to pump blood.
The treatment at Bangkok Heart Hospital cost him between $30,000 and $35,000. Improvement wasn’t guaranteed.
Not getting it, however, would have meant giving in to his steadily worsening congestive heart failure, which the Lakeland man wasn’t willing to do.
“My thoughts were `I don’t have much time left and I’m going to do what I have to do,’ ” said Bodolay, who is 76.
His ejection fraction — the percentage of blood pumped from the heart each beat — was 20 percent or less when he left for Thailand, he said. Normal pumping ability is 50 percent to 75 percent; below 35 is low.
Four months later, he’s glad he had the procedure. His pumping percentage has increased slightly to 22 or 23, and Bodolay is optimistic that it is going up instead of down.
“I can tell I’m much stronger on the inside than I was,” he said. “If I can make the same progress in the next three months . . . I’ll be in good shape.”
In deciding to get that treatment, he was encouraged by the improved condition of singer Don Ho, well known for “Tiny Bubbles” and “The Hawaiian Wedding Song,” who had the same procedure late last year.
Stem cells heal heart overseas
WESTON – Jim Burns was frustrated.
A heart attack at age 44 left him often fatigued and short of breath. Over the 23 years that followed, doctors performed quadruple bypass surgery, did angioplasty and inserted stents, but his condition gradually worsened. Burns’ options appeared to be dwindling.
“I had probably 50 heart attacks,” he said. “Your heart dies a little at a time.”
Then, one day, he saw a public television program about something called stem cell therapy. Some English researchers testing the procedure on a group of patients, saw incredible improvement, Burns remembered.
He searched the Internet for more information about the therapy and found a biotechnology company in Thailand that specializes in stem cell therapy for heart patients. The company, TheraVitae, uses VesCell stem cell treatments on patients with coronary artery disease and congestive heart failure. The company’s Web site claimed an 80 percent success rate after treating over 130 patients.
In stem cell therapy, doctors take stem cells from the patient’s own blood, multiply them in a lab and, later, reinject them into the damaged heart.
The more Burns learned, the more excited he got. Many telephone calls and blood tests later, Burns was winging his way to Thailand with his wife, Melva, with high hopes the procedure would help his weakened heart.
On July 20, doctors withdrew blood from Burns. Five days later, he sat on a steel table in a hospital operating room, watching a monitor as doctors worked.
“It took about 40 minutes,” Burns said. “They put 28 million stem cells into me.”