bridal dress

Orange bridal dress for first day.This colour will make you more fair on your wedding.

bangles

Bangles,girls love to wear it.It is tradition that the bride will try to wear as many small glass bangles as possible at her wedding and the honeymoon will end when the last bangle breaks. Bangles also have a very traditional value in Hinduism and it is considered inauspicious to be bare armed for a married woman Toddler to older woman could wear bangles based on the type of bangles. Bangles made of gold or silver are preferred for toddlers.
 There are two basic types of bangles: a solid cylinder type; and a split, cylindrical spring opening/closing type. Primary distinguishing factor for these is the material that is used to make the bangles. This may vary anything from glass to jade to metal to lac and even rubber or plastic.

long sleeved wedding dress

MANY BRIDES PREFER LONG SLEEVED IN WEDDING DRESS....

mehandi

BLACK OUTLINE WITH FILLING OF SIMPLE GREEN MEHANDI
Mehndi designs are the most Favorite fashion type of the girls.there are many of  people who love to see mehndi designs on their hands.it is not possible to copy mehndi designs hundred percent.but many of styles in the fashion become so famous due to their simplicity and easy to create.
There are many of patterns of henna fashion. Art of mehndi is not so much difficult to learn  mehndi designs art because of simple patterns people can easily practice and learn this art,

foot care

Home Remedies For Foot Care:

First of all take a tub in fill in half with water, make sure water should be lukewarm. Now place your both feet in to it and add some drops of vinegar and baking soda. Leave them for fifteen minutes. 

After fifteen minute rub your foot with the help of towel and wash with normal water. Now after that if you do not feel good then it is better to again do this procedure and while adding baking soda and vinegar in to lukewarm water you can also add few drops of shampoo in to it.

Abdominal aortic aneurysm

Abdominal aortic aneurysm (also known as AAA, pronounced "triple-a") is a localized dilatation of the abdominal aorta exceeding the normal diameter by more than 50 percent. It is caused by degeneration of the aortic wall, but the exact etiology remains unknown. Some 90 percent of abdominal aortic aneurysms occur infrarenally (below the kidneys), but they can also occur pararenally (at the level of the kidneys) or suprarenally (above the kidneys). Such aneurysms can extend to include one or both of the iliac arteries in the pelvis.
Abdominal aortic aneurysms occur most commonly in individuals between 65 and 75 years old and are more common among men and smokers. They tend to cause no symptoms, although occasionally they cause pain in the abdomen and back (due to pressure on surrounding tissues) or in the legs (due to disturbed blood flow). The major complication of abdominal aortic aneurysms is rupture, which can be life-threatening as large amounts of blood spill into the abdominal cavity, and can lead to death within minutes.
Symptomatic and large aneurysms (i.e., those greater than 5.5cm in diameter) are considered for repair by one of several surgical methods. There is moderate evidence to support screening in individuals with risk factors for abdominal aortic aneurysms.
There have been many calls for alternative approaches to rupture-risk assessment over the past number of years, with many believing that a biomechanics-based approach may be more suitable than the current diameter approach. Numerical modelling is a valuable tool to researchers allowing approximate wall stresses to be calculated, thus revealing the rupture potential of a particular aneurysm.
Experimental models are required to validate these numerical results, and provide a further insight into the biomechanical behaviour of the AAA. ''In vivo'', AAAs exhibit a varying range of material strengths from localised weak hypoxic regions to much stronger regions and areas of calcifications. Experimental models can now be manufactured using a novel technique involving the injection-moulding lost-wax manufacturing process to create patient-specific anatomically-correct AAA replicas.
Work has also focused on developing more realistic material analogues to those ''in vivo'', and recently a novel range of silicone-rubbers was created allowing the varying material properties of the AAA to be more accurately represented. These rubber models can also be used in a variety of experimental testing from stress analysis using the photoelastic method to deterimining whether the locations of rupture experimentally correlate with those predicted numerically.
With the recent advancements in AAA research, coupled with the increasing collaboration between clinicians and engineers, the future research into AAA rupture-prediction and treatment appears to be in a strong position to combat what is currently ranked as the 13th leading cause of death in the US and the 10th leading cause of death in men over the age of 55 years.
A recent animal study published in the journal ''Nature Medicine'' showed that removing a single protein prevents early damage in blood vessels from triggering a later-stage, frequently lethal complication of atherosclerosis. By eliminating the gene for a signaling protein called cyclophilin A (CypA) from a strain of mice, researchers were able to provide complete protection against abdominal aortic aneurysm (AAA).
New endovascular devices are being developed that are able to treat more complex and tortuous anatomies.