Saturday, September 5, 2009

Practical: theme 4

Introduction to Musculoskeletal History Taking and Examination

Normal history taking + risk factors for musculoskeletal disease & a system review

RISK FACTORS: predisposing one to musculoskeletal disease

· Occupation and sport

· Family history

· Infections

· Medication

· Overseas travel

· Previous History of musculoskeletal injury or condition

MUSCULOSKELETAL SYSTEMS REVIEW

Ø If joint(s) have been painful, ask if they have been swollen.

Arthralgia – pain in a joint

Arthritis – inflammation of a joint

Ø Inflamed tendons and joints

§ most stiff and painful after hours of inactivity (eg overnight)

§ “loosen up” with activity.

Assess pain : WWQQAA + B

Where – the location & radiation of a symptom

When – When it began, fluctuation over time, duration

Quality – What it feels like

Quantity – intensity, extent, degree of disability

Aggravating & alleviating factors

Associated Symptoms

Beliefs

- fractures /breaks : torn ligament

- Sprains : myalgias (have you noticed any muscle pains?)

- Movement and walking

Thursday, September 3, 2009

Treatment and Management :)

* what's in grey is additional information :) *

Early cataract

Symptoms can be improved with :
· new eyeglasses
· brighter lighting
· anti-glare sunglasses
· magnifying lenses.

If it cannot be improved, surgery is then performed.

Types of surgery :

1. Phacoemulsification ( aka small incision cataract surgery)
· A small incision is made on the side of the cornea.
· A tiny probe is inserted into the eye.
· This device emits ultrasound waves that soften and break up the lens so that it can be removed by suction

2. Extracapsular surgery.
· A longer incision is made on the side of the cornea and then the cloudy core of the lens is removed in one piece.
· The rest of the lens is removed by suction. After the natural lens has been removed, it often is replaced by an artificial lens, called an intraocular lens (IOL).
· An IOL - clear, plastic lens that requires no care and becomes a permanent part of the eye.
· Light is focused clearly by the IOL onto the retina, improving the patient’s vision.

* Intraocular lens - commonly called an IOL, is a tiny artificial lens for the eye.
· An IOL permanently replaces the eye's natural lens when it is removed during cataract surgery.
· Because an IOL is a permanent replacement for the natural lens, it is used in the majority of all cataract surgery patients.
· The IOL provides better vision than thick eyeglasses do, and it is much more convenient than a contact lens because it doesn't have to be taken on and off the eye.
· IOLs come in different focusing powers, just as contact lenses or prescription eyeglasses do.
· An IOL is placed in the center of the pupil, either in front of or behind the iris. It is most commonly placed behind the iris where the natural lens was located.
· Most of the IOLs implanted today are made of silicone or acrylic materials.
· These lenses can be folded and inserted through a small (approximately 3 millimeter) incision during cataract surgery.
· Examples of lenses :
1. Monofocal lens: These lenses are the most commonly implanted lenses today. They have equal power in all regions of the lens and can provide high-quality vision at a single focal point (either near or far). They usually require only a light pair of spectacles for optimal distance vision correction. However, monofocal lenses do not correct astigmatism, an irregular oblong corneal shape that can distort vision at all distances, and require corrective lenses for all near tasks, such as reading or writing.

2. Toric lens: Toric lenses have more power in one specific region in the lens (similar to spectacles with astigmatism correction in them) to correct astigmatism, which can further improve unaided distance vision for many individuals. Due to the difference in lens power in different areas, the correction of astigmatism with a toric lens requires that the lens be positioned in a very specific configuration. While toric lenses can improve distance vision and astigmatism, they still require corrective lenses for all near tasks, such as reading or writing.

3. Multifocal lens: Multifocal intraocular lenses have a variety of regions with different power within the lens that allows individuals to see at a variety of distances, including distance, intermediate, and near. While promising, multifocal lenses are not for everyone. They can cause significantly more glare than monofocal or toric lenses. Further, multifocal lenses cannot correct astigmatism, and some patients require additional surgery such as LASIK to correct astigmatism and maximize their unaided vision.


3. Posterior capsulotomy ( For 2nd cataract or also known as posterior capsule opacification (PCO) – 25% risk of developing )
· Weeks to years after cataract surgery, the capsule ( where the lens was removed from, and where the IOL is inserted into ) may become cloudy or wrinkled and cause blurred vision
· A simple laser procedure that makes an opening in the back, or posterior, part of the capsule to restore normal vision.
· A special laser is targeted at the back of the capsule and makes a small opening. The technique is painless and only takes a few minutes. It is performed on an outpatient basis.
· Rare complications can occur, including:
o Detachment of the retina
o Increased intraocular pressure
o Dislocation of the IOL through the posterior capsule opening

Risks :
· Infection and bleeding.
· slightly increases risks of retinal detachment.
· Myopia (nearsightedness), can further increase the risk of retinal detachment after cataract surgery. One sign of a retinal detachment is a sudden increase in flashes or floaters. Floaters are little "cobwebs" or specks that seem to float about in the field of vision.
· Swelling
· Small fragments of lens which can become lodged behind the vitreous or back cavity of the eye.
· Potential for loss of sight.

Pre Surgery :
· Perform a thorough eye examination. Before the surgery,the eye will be measured to determine the proper power of the intraocular lens that will be placed in the eye.
· Temporarily stop taking certain medications that increase the risk of bleeding during surgery.
· Tests may be performed, which includes measuring the curve of the cornea and the size and shape of the eye.

During Surgery :
· Drops will be put into the eye to dilate the pupil.
· The area around the eye will be washed and cleansed.
· The operation usually lasts less than one hour and is almost painless.

Post Surgery :
· Tell patients to keep their eye clean, wash hands before touching the eye, and use the prescribed medications to help minimize the risk of infection.
· Tell them that, itching and mild discomfort are normal after cataract surgery.
· Some fluid discharge is also common.
· The eye may be sensitive to light and touch.
· The patient may to use eyedrops, a few days after surgery to help healing and decrease the risk of infection.
· Ask the patient not to rub or press the eye
· Avoid strenuous activities
· Wear eyeglasses or an eye shield

Problems that might occur after surgery :
Infection
Bleeding
Inflammation (pain, redness, swelling)
loss of vision
double vision
high or low eye pressure.
The eye tissue that encloses the IOL may become cloudy and may blur vision. This condition is called an after-cataract. An after-cataract can develop months or years after cataract surgery. An after-cataract is treated with a laser, which uses a laser to make a tiny hole in the eye tissue behind the lens to let light pass through. This outpatient procedure is called a YAG(yttrium-aluminum-garnet) laser capsulotomy. It is painless and rarely results in increased eye pressure or other eye problems.

Alternative treatment :
In some cases, cataracts are mild enough to be treated naturally, with various herbs, exercises and other alternative therapies.
From Nutrient Protocols from 2001, written by Alan R Gaby, M.D. with contributions from Jonathan V. Wright, M.D

· Limit consumption of lactose-containing foods (milk products). In animal studies, galactose, a component of lactose, has been shown to promote cataracts formation.
· A riboflavin deficiency has been implicated in cataracts development. Therefore, a supplemental dosage of riboflavin, 10-50 mg/day, may help treat or at least slow the progression of cataracts formation.
· Taking Vitamin C, 1000 mg, two times a day may help to decrease damage caused by free radicals, in turn helping to treat cataracts.
200-600 mg/day of N-Acetylcysteine (NAC) along with zinc and copper may treat cataracts by working to destroy free radicals. 12
· Ayurveda - to bathe the eye with an eye wash made of triphala tea which can be found in most Indian pharmacies and some natural health stores. The tea is composed of a powder of three Indian tree fruits. The recommendation is to wash the affected eye in the steeped, cooled tea up to three times a day.
· Imagery - An image should appeal to each individual in order to work successfully. Different imagery sessions can be found in books, on tapes or by seeking the expertise of a professional who works with imagery therapy.
· Reflexology - Foot reflexology charts and reflexology books are available to help locate the points which should be stimulated for cataracts treatment.
· Juice therapy- based on the body's need for additional antioxidants, vitamins and minerals with which it can fight the free radicals and damaging molecules that are attacking the protein of the lenses. However, most juicing experts agree that juicing therapy will only slow down the progression, not reverse the condition. 13

LASIK eye surgery :
Laser-Assisted In Sito Keratomileusis
A laser vision correction surgery that is meant to reduce a person's need for glasses or contacts. Unfortunately, those with Cataracts are typically not candidates for the LASIK procedure.
The exact LASIK process involves an incision in the corneal flap so the inner eye is exposed.
A laser will shoot down waves that smooth the abnormalities in the cornea that cause imperfect vision.

References :
http://www.nei.nih.gov/health/cataract/cataract_facts.asp
American Academy of ophthalmology : http://www.medem.com/?q=medlib/article/ZZZUMFCHREE
http://www.medem.com/?q=medlib/article/ZZZY9VMAC8C
http://www.medem.com/?q=medlib/article/ZZZRICYGREE
http://www.mayoclinic.com/print/cataract-surgery/MY00164/METHOD=print&DSECTION=all
http://www.emedicinehealth.com/cataracts/page11_em.htm
http://www.cataract.com/alternative-treatment-options.html
http://www.cataract.com/conventional-treatment-options.html
http://www.cataract.com/types-of-intraocular-lenses.html
http://www.cataract.com/actual-process-and-procedure.html
http://www.cataract.com/risks-of-cataract-surgery.html
http://www.cataract.com/lasik-eye-surgery.html

Epidemiology

Worldwide

* No data, but cataract is the leading cause of blindness worldwide.


Australia (2001)

*
2.0% of population have cataract
o Male 1.5%
o Female 2.4%


Malaysia

*
Diabetes
o 2006 – 10.3% of Malaysian population
o Orang asli 0.3%
*
National Eye survey 1996
o Cataract is the leading cause of blindness, with 39% of blindness and 36% of low vision were due to cataract
o
Prevalence of cataract in Malaysia 2.58%
+ Women 2.69%
+ Men 2.46%
o An exponential increase of cataract after 40 years of age
o The age group with the highest prevalence of cataract was the 70 years and above age group with a prevalence of 54.55%.
o
Based on races
+ Indian 3.63%
+ Other indigenous group 2.79%
+ Chinese 2.69%
+ Malay 2.29%
o Urban areas had lower prevalence (2.48%) compared to rural areas (2.66%)
o
States
+ Melaka 5.31%
+ Kuala Lumpur 3.37%
+ Sabah 3.32%



Reference:

1. http://books.google.com/books?id=S28jeel2VfUC&pg=PA130&lpg=PA130&dq=incidence+of+diabetes+in+orang+asli&source=bl&ots=HUqB4iP6P_&sig=tqQKDIf4I8g-W8k-L_ptBDeU8xI&hl=en&ei=JEifStbsKpbU7AOe6OjrCw&sa=X&oi=book_result&ct=result&resnum=4#v=onepage&q=&f=false
2. http://www.moh.gov.my/opencms/export/sites/default/moh/download/BI_edisi4pg_2.pdf
3. http://www.fskb.ukm.my/jurnal/Jilid%204%281%292006/Sharanjeet%20Kaur.pdf

treatment & management of cataract

Cataract Treatment

Surgery

The standard cataract surgical procedure is typically performed in either a hospital or in an ambulatory surgery center. The most common form of cataract surgery today is a process called phacoemulsification. With the use of an operating microscope, your surgeon will make a very small incision in the surface of the eye in or near the cornea. A thin ultrasound probe is inserted into the eye that uses ultrasonic vibrations to dissolve (phacoemulsify) the clouded lens. These tiny fragmented pieces are then suctioned out through the same ultrasound probe. Once the cataract is removed, an artificial lens is placed into the same thin capsular bag that the cataract occupied. This intraocular lens is essential to help your eye focus after surgery.

Intraocular lens: An artificial lens made of plastic, silicone, acrylic or other material that is implanted inside the eye during cataract surgery. Abbreviated IOL.

Removal of the cataract and insertion of the IOL typically takes about an hour and does not require hospitalization. The IOL is implanted within the capsule, which provides permanent support for the lens. The IOL is never handled or adjusted, as a contact lens might be. If an IOL is not implanted during cataract surgery, the patient may use contact lenses or cataract glasses.

http://www.emedicinehealth.com/script/main/art.asp?articlekey=7219

There are three basic techniques for cataract surgery:

  • Phacoemulsification: This is the most common form of cataract removal as explained above. In this most modern method, cataract surgery can usually be performed in less than 30 minutes and usually requires only minimal sedation and numbing drops, no stitches to close the wound, and no eye patch after surgery.

Reference: http://www.youtube.com/watch?v=g0z-YwXDuyo

  • Extracapsular cataract surgery: This procedure is used mainly for very advanced cataracts where the lens is too dense to dissolve into fragments (phacoemulsify) or in facilities that do not have phacoemulsification technology. This technique requires a larger incision so that the cataract can be removed in one piece without being fragmented inside the eye. An artificial lens is placed in the same capsular bag as with the phacoemulsification technique. This surgical technique requires a various number of sutures to close the larger wound, and visual recovery is often slower. Extracapsular cataract extraction usually requires an injection of numbing medication around the eye and an eye patch after surgery.

Reference: http://www.youtube.com/watch?v=rfO15-ZP9IY

  • Intracapsular cataract surgery: This surgical technique requires an even larger wound than extracapsular surgery, and the surgeon removes the entire lens and the surrounding capsule together. This technique requires the intraocular lens to be placed in a different location, in front of the iris. This method is rarely used today but can be still be useful in cases of significant trauma.

Reference: http://www.youtube.com/watch?v=qdhOcxX6RrM

What are the different types of intraocular lenses implanted after cataract surgery?

As the natural lens plays a vital role in focusing light for clear vision, artificial-lens implantation at the time of cataract surgery is necessary to yield the best visual results. Because the implant is placed in or near the original position of the removed natural lens, vision can be restored, and peripheral vision, depth perception, and image size should not be affected. Artificial lenses are intended to remain permanently in place, require no maintenance or handling, and are neither felt by the patient nor noticed by others.

There are a variety of intraocular lens styles available for implantation, including monofocal, toric, and multifocal intraocular lenses.

1. Monofocal lens: These lenses are the most commonly implanted lenses today. They have equal power in all regions of the lens and can provide high-quality vision at a single focal point (usually at distance). They usually require only a light pair of spectacles for optimal distance vision correction. However, monofocal lenses do not correct astigmatism, an irregular oblong corneal shape that can distort vision at all distances, and require corrective lenses for all near tasks, such as reading or writing.

2.
Toric lens: Toric lenses have more power in one specific region in the lens (similar to spectacles with astigmatism correction in them) to correct astigmatism, which can further improve unaided distance vision for many individuals. Due to the difference in lens power in different areas, the correction of astigmatism with a toric lens requires that the lens be positioned in a very specific configuration. While toric lenses can improve distance vision and astigmatism, they still require corrective lenses for all near tasks, such as reading or writing.

3.
Multifocal lens: Multifocal intraocular lenses have a variety of regions with different power within the lens that allows individuals to see at a variety of distances, including distance, intermediate, and near. While promising, multifocal lenses are not for everyone. They can cause significantly more glare than monofocal or toric lenses. Further, multifocal lenses cannot correct astigmatism, and some patients require additional surgery such as LASIK to correct astigmatism and maximize their unaided vision.

Astigmatism is an optical defect in which vision is blurred due to the inability of the optics of the eye to focus a point object into a sharp focused image on the retina.

What should one expect prior to and on the day of surgery?

Prior to the day of surgery, your ophthalmologist will discuss the steps that will occur during surgery. Your ophthalmologist or a staff member will ask you a variety of questions about your medical history and perform a brief physical exam. You should discuss with your ophthalmologist which, if any, of your routine medications you should avoid prior to surgery. Prior to surgery, several calculations will be made to determine the appropriate power intraocular lens to implant. A specific artificial lens is chosen based on the length of the eye and corneal curvature (the clear portion of the front of the eye).

It is important to remember to follow all of your preoperative instructions, which will usually include not eating or drinking anything after midnight the day prior to your surgery. As cataract surgery is an outpatient procedure, arrangements should be made with family or friends to transport you home after the surgery is complete. Most cataract surgery occurs in either an ambulatory surgery center or a nearby hospital. You will be required to report several hours before the scheduled time for your surgery. You will meet with the anesthesiologist who will work with the ophthalmologist to determine the type of sedation that will be necessary. Most cataract surgery is done with only minimal anesthesia and numbing drops without having to put you to sleep.

During the actual procedure, there will be several people in the operating room in addition to your ophthalmologist; these include anesthesiologists and operating-room nurses and technicians. While cataract surgery does not involve a significant amount of pain, medications are used to maximize your comfort. The actual removal of the clouded lens will take approximately 20-30 minutes in most instances.

After leaving the operating room, you will be brought to a recovery room where your doctor will prescribe several eye drops that you will need to take for a few weeks postoperatively. While you may notice some discomfort, most patients do not experience significant pain following surgery; if you do you experience decreasing vision or significant pain, you should contact your ophthalmologist immediately. Depending on the type of anesthesia used, you may or may not have a patch on your eye that will remain in place for the first day and night after surgery.

What should one expect after the surgery?

Following surgery, you will need to return for visits within the first few days and again within the first few weeks after surgery to assure your eye is healing properly. During this time period, you will be using several eye drops which help protect against infection and inflammation, and you will have some restrictions on activities such as lifting heavy objects and bending forward or stooping to the ground. Within several days, most people notice that their vision is improving, and they are able to return to work. During the several office visits that follow, your doctor will monitor for complications, and once vision has stabilized, will fit you with glasses if needed. The type of intraocular lens you have implanted will determine to some extent the type of glasses required for optimal vision.

What are potential complications of cataract surgery?

While cataract surgery is one of the safest procedures available with a high rate of success, rare complications can arise. Your ophthalmologist will discuss the specific potential complications of the procedure that are unique to your eye prior to having you sign a consent form. The most common difficulties arising after surgery are persistent inflammation, changes in eye pressure, infection, or swelling of the retina at the back of the eye, and retinal detachment. If the delicate bag the lens sits in is injured, then the artificial lens may need to be placed in a different location. In very rare cases, the intraocular lens moves or does not function properly and may need to be repositioned, exchanged, or removed. All of these complications are extremely rare but can lead to significant visual loss if left untreated; thus, close follow-up is required after surgery.

In some cases, within months to years after surgery the thin lens capsule may become cloudy, and you may have the sensation that the cataract is returning because your vision is becoming blurry again. This process is termed posterior capsule opacification, or a "secondary cataract." To restore vision, a laser is used in the office to painlessly create a hole in the cloudy bag. This procedure takes only a few minutes in the office, and vision usually improves rapidly.

Prevention

At present, there is no real effective way to prevent the formation of cataracts, so secondary prevention involves controlling other eye diseases that can cause cataracts and minimizing exposure to factors that promote cataracts.

  • Wearing sunglasses outside during the day might reduce your chances of developing cataracts or having problems with the retina. Some sunglasses can filter out UV light, reducing exposure to harmfulUV radiation and might slow the progression of cataracts.
  • Some people take vitamins, minerals, and herbal extracts to decrease cataract formation. No scientific data prove that these remedies are effective. No topical or oral medications or supplements are proven to decrease the chance of developing cataracts.
  • A healthy lifestyle might help, just as a healthy lifestyle helps prevent other diseases in the body. Eat a proper diet, get regular exercise and rest, and do not smoke.
  • If you have diabetes, tight blood-sugar control can delay the otherwise accelerated development of cataracts.

Reference: http://www.emedicinehealth.com/cataracts/article_em.htm

Wednesday, September 2, 2009

Forearm practical task division

hey guys jus try and do these stuff and come tomoro if cant no probs we shall discuss, bout today's practical i will b doin later today or during weekend and can pass u if u want once im done..


Superficial and deep Forearm

1. ACTIVITY 1 : FUNCTIONAL ORGANIZATION OF THE FOREARM

(Use articulated skeletons & bone sets, plastinated cross section)

Sandhya Chang Thai

1.1. Draw a labeled cross section of the upper third of the forearm showing the following:

Radius, Ulna and the Interosseous membrane

Superficial and deep fascia

Anterior and posterior compartments

Neuro-vascular structures

1.2. Identify the interosseous membrane.

1.2.1. What are its functions?

2. ACTIVITY 2 : MUSCLES

(Use models & plastinated specimens)

Daksha Viran Shakir

2.1. List the muscles of the Anterior (flexor-pronator) compartment.

2.2. From lateral to medial, identify the muscles originating from the common flexor origin.

2.2.1. What is Golfer’s elbow?

2.3. Which muscles have 2 heads ?

2.3.1. Which main nerves enter the forearm by passing between the 2 heads of each of these muscles?

2.3.2. What structures pass under the FDS arch?

2.4. Which nerve supplies the muscles with the common flexor origin?

2.5. Identify pronator quadratus.

2.5.1. What are its functions?

2.5.2. What is its nerve supply?

2.5.2.1. From which branch is this nerve derived?

2.5.3. What is the space of Parona?

2.5.3.1. What is its clinical application?

2.5.3.2. What limits more proximal spread?

2.6. Identify and list the deep forearm flexor muscles.

2.6.1. What is their nerve supply?

2.7. Identify the muscles of the Posterior (extensor-supinator) compartment of the forearm.

2.7.1. What are the nerve supplies of these muscles?

2.8. List the muscles originating from the common extensor origin.

2.8.1. Which nerve supplies the muscles with the common extensor origin?

2.8.1.1. Where can the superficial radial nerve be found in the forearm?

2.8.2. What is ‘tennis elbow’?

2.8.3. Which of these muscles have second heads?

2.9. Identify and list (lateral to medial) the extensor tendons running in compartments over the distal forearm.

2.9.1. Identify Lister’s tubercle

3. ACTIVITY 3 : VESSELS

(Use models, textbooks (e.g. Snell), atlases & plastinated specimens)

Carrmen

3.1. Review the blood and nerve supply to each of the compartments of the forearm

3.2. Identify the origin of the radial artery.

3.2.1. What are its main branches in the forearm?

4. ACTIVITY 4 : NERVES

(Use models, textbooks (e.g. Snell), atlases & plastinated specimens)

Arma and Syukriah

4.1. Map the dermatomes of the upper limb.

4.2. Identify the cutaneous nerves of the forearm.

4.2.1.1. What is the origin of the lateral cutaneous nerve of the forearm?

4.2.1.2. What is the origin of the medial cutaneous nerve of the forearm?

4.3. What is Volkmann's contracture?

4.3.1. What is the pathology?

4.3.2. Which muscles are involved?

5. ACTIVITY 5 : SURFACE ANATOMY

Ridzuan Jess

5.1 Pronation and supination are movements that we utilize in daily life.

5.1.1 Demonstrate the ROM of supination and pronation

5.1.2 Demonstrate the axis of their movement

5.1.3 Which joints are involved?

5.1.4 Which muscles are involved?

5.2 Demonstrate the biceps jerk, triceps jerk, brachioradialis jerk

5.2.1 What are the root values of these reflexes?

6. ACTIVITY 6 : RADIOLOGY

Zhi Mei and Jasmin

(Refer to radiological images in textbooks, MUCAS & Radiology 2)

Identify key structures in the following :

6.1. Plastinated cross-sections of upper forearm (correlate with MRI cross-sections)

Pathophysiology of Cataract - Arma

The term cataract is derived from the Greek word cataractos, which describes rapidly running water. When water is turbulent, it is transformed from a clear medium to white and cloudy. Keen Greek observers noticed similar-appearing changes in the eye and attributed visual loss from "cataracts" as an accumulation of this turbulent fluid, having no knowledge of the anatomy of the eye or the status or importance of the lens.

The lens is a clear part of the eye that helps to focus light, or an image, on the retina. The retina is the light-sensitive tissue at the back of the eye. In a normal eye, light passes through the transparent lens to the retina. Once it reaches the retina, light is changed into nerve signals that are sent to the brain. The lens must be clear for the retina to receive a sharp image.
The lens is made mostly of water and protein. Specific proteins within the lens are responsible for maintaining its clarity. Over many years, the structures of these lens proteins are altered, ultimately leading to a gradual clouding of the lens. Beside that, the clear lens can also changes slowly to a yellowish/brownish color, adding a brownish tint to vision.

Cataracts are very common in older people. A cataract can occur in either or both eyes. It cannot spread from one eye to the other. The clouding may become severe enough to cause blurred vision. Most age-related cataracts develop from protein clumping. When a cataract is small, the cloudiness affects only a small part of the lens. You may not notice any changes in your vision. Cataracts tend to grow slowly, so vision gets worse gradually. Over time, the cloudy area in the lens may get larger, and the cataract may increase in size. Seeing may become more difficult. Your vision may get duller or blurrier.

Cataracts also cause the lens to change to a yellowish/brownish color. As the clear lens slowly colors with age, your vision gradually may acquire a brownish shade. At first, the amount of tinting may be small and may not cause a vision problem. Over time, increased tinting may make it more difficult to read and perform other routine activities. This gradual change in the amount of tinting does not affect the sharpness of the image transmitted to the retina. If you have advanced lens discoloration, you may not be able to identify blues and purples. You may be wearing what you believe to be a pair of black socks, only to find out from friends that you are wearing purple socks. The risk of cataract increases as you get older. Other risk factors for cataract include
• certain diseases like diabetes
• personal behavior like smoking or alcohol use
• environmental factors such as prolonged exposure to ultraviolet sunlight.

References:
http://www.emedicinehealth.com/cataracts/article_em.htm
http://www.nlm.nih.gov/medlineplus/ency/article/001001.htm
http://nihseniorhealth.gov/cataract/whatisacataract/01.html

Monday, August 31, 2009

Test update about epid

hey ppl

jus tot id let u kno about a few things..
i was bored and jus about to start studyin for epid when i tot about goin onto MUSO and checkin out the discussion board and this is what i came across Dr. Robin Bell of aussie state about the quizzes in pop health folder,

"In theory the first 4 quizzes are what are relevant for the MST. Tutorial 6 also covers study design in a more comparative way so that you could have a go at quiz 6 as well if you wanted to."

this is what is stated about the sampling stuff,

"The most important concept to understand is random sampling and we will go over this in tutorial 5 after the MST. The calculations of standard error and confidence intervals will also be covered in tutorial 5 and so will not be covered in the MST."

Jus tot id share this information with u guys.. pls spread the word =)