Clinical study, Selection of patients, Fitting procedure – Bausch & Lomb PureVision2 for Astigmatism Contact Lenses User Manual

Page 3: Practitioner fitting sets, Wearing schedule, Monovision fitting guidelines, Handling of lens, Care for a sticking (nonmoving) lens, Emergencies, Reporting of adverse reactions

Important Treatment Information for Adverse Reactions
Sight-threatening ocular complications associated with contact lens wear can

develop rapidly, and therefore early recognition and treatment of problems

are critical. Infectious corneal ulceration is one of the most serious potential

complications, and may be ambiguous in its early stage. Signs and symptoms of

infectious corneal ulceration include discomfort, pain, inflammation, purulent

discharge, sensitivity to light, cells and flare, and corneal infiltrates.
Initial symptoms of a minor abrasion and an early infected ulcer are sometimes

similar. Accordingly, such epithelial defect, if not treated properly, may develop

into an infected ulcer. In order to prevent serious progression of these conditions,

a patient presenting symptoms of abrasions or early ulcers should be evaluated as

a potential medical emergency, treated accordingly, and be referred to a corneal

specialist when appropriate. Standard therapy for corneal abrasions such as eye

patching or the use of steroids or steroid/antibiotic combinations may exacerbate

the condition. If the patient is wearing a contact lens on the affected eye when

examined, the lens should be removed immediately and the lens and lens care

products retained for analysis and culturing.

clINIcAl STudy

The following clinical results are provided for informational purposes. It is important

to note that the results below are from a study conducted with the Bausch + Lomb

PureVision

(balafilcon A) Visibility Tinted Contact Lens which has the same

lens material, but different lens design (spherical) . The study was conducted with

subjects not requiring astigmatic correction.
STUDY DESCRIPTION

Study Design
The objective of this 12-month study was to evaluate the safety and efficacy of the

PureVision Contact Lenses worn on a 30-day continuous wear basis, compared

to a conventional Control lens worn on a 7-day continuous wear basis. A total of

1640 eyes (820 subjects) were enrolled into this study. Subjects were fitted with

a PureVision Contact Lens on one eye while the contralateral eye was fitted with

a Control lens. Subjects were instructed to replace the PureVision Contact Lens

with a new lens every 30 days, and to wear the Control lens overnight for up to

six consecutive nights per week. Eyes had one night without lens wear after the

scheduled removal. The Control lens was to be replaced with a new lens every 14

days.
Six hundred ten (610) subjects completed the one-year study. Ten subjects

discontinued in the daily wear adaptation period, 182 subjects discontinued during

the extended wear phase and 18 subjects were not dispensed lenses.

Patient Assessments
Subjects were evaluated at follow-up visits scheduled after 24 hours, 10 days, 1

month, 3 months, 6 months, 9 months, and 12 months of lens wear.
Demographics
Subject recruitment was open to adapted and unadapted contact lens wearers.

There were no restrictions as to the subject’s gender or occupation, but subjects

were required to be of legal age (typically 18 or 21) and have the legal capacity

to volunteer. The ages of the subjects ranged from 18 to 74 years of age, with a

mean age of 33.6, and included 574 females and 228 males, with a ratio of 2.52

females to every male. For the PureVision

Contact Lens the power range used was

–0.50D to –9.00D. For the Control lens the power range was –0.50D to –8.50D.
The previous lens wearing experience of the subjects that participated in the study

was 5% no lens wear, 43% daily wear, and 51% continuous wear. The refractive

errors of the subjects ranged from –0.25D to –11.75D, and included up to –2.00D

of astigmatism.
SUMMARY OF DATA ANALYSES

Summary of Data Analyses
The key endpoints for this study were:
1. Grade 2 and higher slit lamp findings (safety endpoint),
2. Grade 2 and higher corneal infiltrates (safety endpoint), and
3. Contact lens corrected visual acuity worse than 20/40 (efficacy endpoint).
For each key endpoint, the rates (incidents of endpoint/number of eyes)

experienced by eyes in the PureVision Contact Lens and Control lenses were

calculated. The difference in rates between the two lens types was determined

and a 95% confidence interval for the difference was calculated. For each key

endpoint a “clinically significant difference” in the rates was established before the

study started. These “clinically significant differences” were as follows: 10% for total

slit lamp findings

≥Grade 2, 5% for corneal infiltrates ≥ Grade 2, and 5% for the

acuity endpoint. For example, if the true rates of endpoint infiltrates in the subject

population were 9.99% in the PureVision Contact Lens and 5% in the Control lens,

these rates would be considered substantially equivalent (difference <5%).
In order to be successful for a given endpoint, the upper 95% confidence limit for

the difference in the study rates had to be less than the pre-established “clinically

significant difference.” This means that we are 95% confident that the true difference

is within tolerance. The safety and efficacy goals were met for all three key endpoints.

Results are as follows:

PureVision

Control

Relative

Risk/

PureVision

Control

Difference

in %

Upper

95%

Confidence

Level

Clinically

Significant

Difference

Endpoint

Slit Lamp

Findings

≥

Grade 2

138

17.5%

139

17.6%

1.0

-0.1%

2.6%

10.0%

Corneal

Infiltrates

≥

Grade 2

2.9%

1.3%

2.3

1.6%

2.9%

5.0%

Visual

Acuity Worse

than 20/40

0.0%

0.3%

0.0

-0.3%

0.1%

5.0%

Summary of Slit Lamp Findings
Slit lamp examinations were conducted at every study visit. Each graded slit lamp

parameter was scored on a qualitative grade scale ranging from 0 to 4, with Grade

0 representing the absence of findings, and Grades 1 through 4 representing

successively worse findings. For each study eye, a determination was made for

each parameter as to whether, or not a positive finding was presented at any visit.

The following table describes slit lamp findings

≥

Grade 2 and ungraded slit lamp

findings.

PureVision

Control

Graded Slit Lamp Findings (

≥ Grade2 )

Any Finding

1,2

17.5%

17.6%

Corneal Staining

8.2%

8.4%

Limbal Injection

3.7%

4.3%

Bulbar Injection

5.2%

4.7%

Tarsal Conjunctival Abnormalities

3.9%

Corneal Infiltrates

2.9%

1.3%

Epithelial Edema

1.3%

1.4%

Epithelial Microcysts

1.0%

Corneal Neovascularization

1.0%

1.7%

Ungraded Slit Lamp Findings

Other Anterior Segment Abnormalities

13.2%

13.8%

External Adnexa Abnormalities

2.7%

Conjunctivitis

2.4%

2.0%

Corneal Striae

0.0%

0.3%

Slit Lamp Finding and Corneal Infiltrates

≥ Grade 2 were the safety endpoints for this study.

The total of all Graded slit lamp findings does not equal the category of Any Finding.

The more common findings identified as Other Anterior Segment Abnormalities included

conjunctival staining; dimple veils; mucin balls; lipid deposits; and ghost vessels.

It should be noted that the PureVision Contact Lens and the Control lens were each

fit on only the right or left eye for each subject. Rates per subject are expected to be

higher when lenses are fit on both eyes.
Corneal Infiltrates
The following table describes the rate of corneal infiltrates according to the lens

power used.

PureVision

Lens Power

Corneal Infiltrates

(

≥ Grade 2)

Plano to – 3.00

1.7 %

– 3.25 to – 6.00

3.2 %

> – 6.00

6.4 %

Total

2.9 %

Control

Lens Power

Corneal Infiltrates

(

≥ Grade 2)

Plano to – 3.00

0.9 %

– 3.25 to – 6.00

1.5 %

> – 6.00

1.3 %

Total

1.3 %

Other Lens-Related Adverse Events
In addition to the outcomes described above, the following lens related adverse

events were noted. This table does not include conjunctivitis or tarsal conjunctival

abnormalities, e.g., giant papillary conjunctivitis.
Other Important Lens-Related Adverse Events

PureVision

Control

Corneal Scar

14 (1.8 %)

5 (0.6 %)

Other Ocular Inflammation*

10 (1.3 %)

2 (0.3 %)

Anterior Chamber Reaction

2 (0.3 %)

1 (0.1 %)

Permanent Loss of Vision

0 (0.0 %)

Other Ocular Inflammation includes episcleritis, scleritis, iritis/uveitis. This condition was

reported in association with other conditions such as keratitis, corneal infiltrates, blepharitis,

corneal abrasion, and contact lens over wear.

It should be noted that the PureVision Contact Lens and Control lenses were each

fit on only the right or left eye for each subject. Rates per subject are expected to be

higher when lenses are fit on both eyes.
Efficacy Outcomes
The contact lens visual acuity was measured at each scheduled and unscheduled

follow-up visit throughout the one-year study. For the 610 subjects that completed

the study, visual acuity of 20/20 or better was reported for 87% and 86% of the

measurements for the PureVision

Contact Lens and Control lens, respectively.

Similarly, visual acuity of 20/25 or better was reported 98% and 97% of the times

for the PureVision Contact Lens and Control lens.
Wearing Time
In this U.S. clinical study subjects were required to maintain a minimum wearing

time in order to continue in the study. For the subjects that completed the study, the

average continuous wear time for the PureVision Contact Lens was at least 28.0

days per month, from the 2-Month visit through the 12-Month visit. At these visits the

same subjects reported they were able to wear the PureVision Contact Lens at least

22 days continuously 94% of the times they were asked.
During the course of the study, 15 subjects were discontinued from the study

because they were not able to wear the PureVision Contact Lens for 30 days.

Twenty-one (21) subjects were discontinued from the study because they were not

able to wear the Control lens for 7 days.

Overnight Corneal Swelling
A study was conducted to assess the corneal swelling response induced by

overnight contact lens wear. Twenty-four (24) subjects each wore either a -3.00

–0.75 x 180º PureVision

Toric Contact Lens (Test Lens) or a -3.00D PureVision

Contact Lens (Control lens) on the contralateral eye overnight under closed

eye conditions for approximately eight hours. The corneal swelling, measured as

the percent increase in the center thickness of the cornea, of the eyes wearing a

PureVision Toric Lens (4.1%) was compared to the swelling response to the Control

lens (3.6 %). The responses were not statistically different (p-value > 0.20).

SelecTION Of PATIeNTS

The eye care professional should not fit, or provide lenses to, patients who cannot,

or will not, adhere to a recommended care or replacement regimen, or are unable

to place and remove the lenses. Failure to follow handling and cleaning instructions

could lead to serious eye infections which might result in corneal ulcers.
Patient communication is vital because it relates not only to patient selection but also

to ensure compliance. It is also necessary to discuss the information contained in the

Patient Information Booklet with the patient at the time of the initial examination.
Patients selected to wear Bausch + Lomb PureVision

2 Toric (balafilcon A) Visibility

Tinted Contact Lenses should be chosen for their motivation to wear contact

lenses, general health and cooperation. The eye care professional must take care

in selecting, examining and instructing contact lens patients. Patient hygiene and

willingness to follow practitioner instructions are essential to their success.
A detailed history is crucial to determining patient needs and expectations. Your

patient should be questioned regarding vocation, desired lens wearing time (full or

part time), and desired lens usage (reading, recreation or hobbies).
Initial evaluation of the trial lens should be preceded by a complete eye examination,

including visual acuity with and without correction at both distance and near,

keratometry and slit lamp examination.
It is normal for the patient to experience mild symptoms such as lens awareness,

variable vision, occasional tearing (watery eyes) and slight redness during the

adaptation period. Although the adaptation period varies for each individual,

generally within one week these symptoms will disappear. If these symptoms persist,

the patient should be instructed to contact his or her eye care professional.

fITTING PROceduRe

1. Pre-Fitting Examination
A pre-fitting patient history and examination are necessary to:
• Determine whether a patient is a suitable candidate for contact lenses (consider

patient hygiene and mental and physical state),

• Make ocular measurements for initial contact lens parameter selection, and
• Collect and record baseline clinical information to which post-fitting

examination results can be compared.

A pre-fitting examination should include spherocylinder refraction and VA,

keratometry, and biomicroscopic examination.
2. Initial Lens Power Selection
a. Select the initial trial lens from the Toric Diagnostic Lens Set with a power

most similar to the patients’ refractive needs, or order a diagnostic lens to the

prescription which most closely matches that of the patient.

b. Place the lens on the eye and allow the lens to remain on the eye long enough

(10 to 20 minutes) to achieve a state of equilibrium. Small variations in the

tonicity, pH of the lens solutions, and individual tear composition may cause

slight changes in fitting characteristics.

c. Allow any increase in tear flow to subside before evaluating the lens. The time

required will vary with the individual.

3. Initial Lens Evaluation
a. To determine proper lens parameters, observe the lens relationship to the

eye using a slit lamp. The toric diagnostic lens is used to optimize lens fitting

characteristics and determine axis orientation. Lens power is determined by the

spectacle refraction.

• Rotation evaluation: The center guide mark should locate at the inferior

limbus. Once oriented, rotational rocking should be limited to less than 5°.

• Movement: The lens should provide discernible movement with:

— Primary gaze blink
— Upgaze blink
— Upgaze lag

• Centration: The lens should provide full corneal coverage.

b. Determine contact lens power. When the toric diagnostic lens does not have an

equivalent to their spectacle Rx, sphero-cylinder over-refractions will often be

inaccurate and confusing. Therefore it is usually preferable to use the spectacle

RX as the only basis for the contact lens power. The sphere and cylinder power

of the spectacle Rx becomes the sphere and cylinder power of the contact lens.

There are two exceptions:

1. If spectacle cylinder power falls between available contact lens cylinder

powers, prescribe the lesser contact lens cylinder power. The sphere power

can be increased -0.25D to compensate if desired. Of course, this can vary

depending on your interpretation of the patient’s subjective responses.
Example: Spectacle Rx: -2.00 -1.00 X 180

Contact Lens Power Ordered: -2.25 -0.75 X 180

2. When the spectacle lens power in any principal meridian is greater than

4.00D, the spectacle refraction should be vertexed to the corneal plane.

This can affect both the sphere and cylinder powers ordered.
Example: Spectacle Rx: -5.00 -2.75 X 180

Contact Lens Power Ordered: -4.75 -2.25 X 180

c. Determine contact lens axis. Note the orientation of the guide mark relative

to the vertical meridian. Regardless of which eye the lens is on, if the rotation is

clockwise but stable, note the amount of rotation, add it to the refractive cylinder

axis and order the resulting axis. If the rotation has stabilized counterclockwise,

again note the rotation, subtract it from the refractive axis and order the resulting

axis. The guide mark can be used to help you calculate the axis of the desired Rx

lens.

Example:

Spectacle Rx: -2.50 -1.25 X 80

Rotation: 20° clockwise

Final Lens Prescription: -2.50 -1.25 X 100

d. Select patient’s lenses
e. Evaluate orientation of final Rx lenses. The orientation of the prescription should

be the same as that observed for the Fitting Set Lenses. For example, if the

lens rotated clockwise 15° then the final prescription lens should also rotate

clockwise 15˚.

4. Criteria of a Well-Fitted Lens
If the initial lens selection fully covers the cornea, provides discernible movement

after a blink, is comfortable for the patient and provides satisfactory visual

performance, it is a well fitted lens and can be dispensed.
5. Characteristics of a Tight (Steep) Lens
A lens which is much too steep may subjectively and objectively cause distortion

which will vary after a blink. However, if a lens is only marginally steep, the initial

subjective and objective vision and comfort findings may be quite good. A

marginally steep lens may be differentiated from a properly fitted lens by having

the patient gaze upward. A properly fitted lens will tend to slide downward

approximately 0.5mm while a steep lens will remain relatively stable in relationship

to the cornea, particularly with the blink.
With your finger, gently rotate the lens approximately 45˚ to the temporal side. It

should reorient within 5 to 10 blinks back to the same stabilized position.

6. Characteristics of a Loose (Flat) Lens
If the lens is too flat, it will:
• Decenter, especially on post-blink.
• Have a tendency to edge lift inferiorly and sit on the lower lid, rather than

positioning between the sclera and palpebral conjunctiva.

• Have a tendency to be uncomfortable and irritating with fluctuating vision.
• Have a tendency to drop or lag greater than 2.0mm on upgaze post-blink.
7. Follow-up Care
a. Follow-up examinations are necessary to ensure continued successful contact

lens wear. From the day of dispensing, the following schedule is a suggested

guideline for follow up.

• 24 hours
• 10 days
• 1 month
• 3 months
• Every six months thereafter

At the initial follow-up evaluations the eye care professional should again

reassure the patient that any of the previously described adaptive symptoms are

normal, and that the adaptation period should be relatively brief. Depending on

the patient’s prior experience with contact lenses and/or continuous wear, the

eye care professional may consider prescribing a one week period of daily wear

adaptation prior to beginning continuous wear.

b. Prior to a follow-up examination, the contact lenses should be worn for at least

4 continuous hours and the patient should be asked to identify any problems

which might be occurring related to contact lens wear. If the patient is wearing

the lenses for continuous wear, the follow-up examination should be conducted

as early as possible the morning after overnight wear.

c. With lenses in place on the eyes, evaluate fitting performance to assure that

CRITERIA OF A WELL FITTED LENS continue to be satisfied. Examine the

lenses closely for surface deposition and/or damage.

d. After the lens removal, instill sodium fluorescein [unless contraindicated] into

the eyes and conduct a thorough biomicroscopy examination.

1. The presence of vertical corneal striae in the posterior central cornea and/

or corneal neovascularization may be indicative of excessive

corneal edema.

2. The presence of corneal staining and/or limbal-conjunctival hyperemia

can be indicative of an unclean lens, a reaction to solution preservatives,

excessive lens wear, and/or a poorly fitting lens.

3. Papillary conjunctival changes may be indicative of an unclean and/or

damaged lens.

If any of the above observations are judged abnormal, various professional

judgments are necessary to alleviate the problem and restore the eye to

optimal conditions. If the CRITERIA OF A WELL FITTED LENS are not

satisfied during any follow-up examination, the patient should be re-fitted with a

more appropriate lens.

PRAcTITIONeR fITTING SeTS

Lenses must be discarded after a single use and must not be used from patient to

patient.

WeARING ScHedule

The wearing and replacement schedules should be determined by the eye care

professional. Regular checkups, as determined by the eye care professional, are

extremely important.
Daily Wear
There may be a tendency for the daily wear patient to over-wear the lenses initially.

Therefore, the importance of adhering to a proper, initial daily wearing schedule

should be stressed to these patients. The wearing schedule should be determined by

the eye care professional. The wearing schedule chosen by the eye care professional

should be provided to the patient.
Continuous Wear (Greater than 24 hours or while asleep):
The wearing schedule should be determined by the prescribing eye care

professional for each individual patient, based upon a full examination and patient

history as well as the practitioner’s experience and professional judgment. Bausch

+ Lomb recommends beginning continuous wear patients with the recommended

initial daily wear schedule, followed by a period of daily wear, and then gradual

introduction of continuous wear one night at a time, unless individual considerations

indicate otherwise.
The practitioner should examine the patient in the early stages of continuous wear to

determine the corneal response. The lens must be removed, cleaned and disinfected

or disposed of and replaced with a new lens, as determined by the prescribing eye

care professional. (See the factors discussed in the Warnings section.)
Once removed, a lens should remain out of the eye for a period of rest

overnight or longer, as determined by the prescribing eye care professional.

MONOVISION fITTING GuIdelINeS

1. Patient Selection
a. Monovision Needs Assessment

For a good prognosis the patient should have adequately corrected distance

and near visual acuity in each eye. The amblyopic patient or the patient with

significant astigmatism (greater than one [1] diopter) in one eye may not be a

good candidate for monovision with the Bausch + Lomb PureVision®2 Toric

(balafilcon A) Visibility Tinted Contact Lenses.

Occupational and environmental visual demands should be considered.

If the patient requires critical vision (visual acuity and stereopsis) it should

be determined by trial whether this patient can function adequately with

monovision.

Monovision contact lens wear may not be optimal for such activities as:

1. Visually demanding situations such as operating potentially dangerous

machinery or performing other potentially hazardous activities; and

2. Driving automobiles (e.g., driving at night). Patients who cannot pass their

state drivers license requirements with monovision correction should be

advised to not drive with this correction, OR may require that additional

over-correction be prescribed.

b. Patient Education

All patients do not function equally well with monovision correction. Patients

may not perform as well for certain tasks with this correction as they have with

bifocal reading glasses. Each patient should understand that monovision can

create a vision compromise that may reduce visual acuity and depth perception

for distance and near tasks. During the fitting process it is necessary for the

patient to realize the disadvantages as well as the advantages of clear near

vision in straight ahead and upward gaze that monovision contact lenses

provide.

2. Eye Selection
a. Ocular Preference Determination Methods

Generally, the non-dominant eye is corrected for near vision. The following

test for eye dominance can be used.

• Method 1—Determine which eye is the “sighting dominant eye.” Have

the patient point to an object at the far end of the room. Cover one eye. If

the patient is still pointing directly at the object, the eye being used is the

dominant (sighting) eye.

• Method 2—Determine which eye will accept the added power with the

least reduction in vision. Place a trial spectacle near add lens in front of one

eye and then the other while the distance refractive error correction is in

place for both eyes. Determine whether the patient functions best with the

near add lens over the right or left eye.

b. Refractive Error Method

For anisometropic corrections, it is generally best to fit the more hyperopic (less

myopic) eye for distance and the more myopic (less hyperopic) eye

for near.

c. Visual Demands Method

Consider the patient’s occupation during the eye selection process to

determine the critical vision requirements. If a patient’s gaze for near tasks is

usually in one direction correct the eye on that side for near.

Example:

A secretary who places copy to the left side of the desk will usually function best

with the near lens on the left eye.

3. Special Fitting Considerations
Unilateral Lens Correction

There are circumstances where only one contact lens is required. As an example,

an emmetropic patient would only require a near lens while a bilateral myope may

require only a distance lens.
Example:

A presbyopic emmetropic patient who requires a +1.75 diopter add would have a

+1.75 lens on the near eye and the other eye left without a lens.
A presbyopic patient requiring a +1.50 diopter add who is –2.50 diopters myopic

in the right eye and –1.50 diopters myopic in the left eye may have the right eye

corrected for distance and the left uncorrected for near.
4. Near Add Determination
Always prescribe the lens power for the near eye that provides optimal near acuity

at the midpoint of the patient’s habitual reading distance. However, when more than

one power provides optimal reading performance, prescribe the least plus (most

minus) of the powers.

5. Trial Lens Fitting
A trial fitting is performed in the office to allow the patient to experience monovision

correction. Lenses are fit according to the directions in the general fitting guidelines.
Case history and standard clinical evaluation procedure should be used to

determine the prognosis. Determine which eye is to be corrected for distance and

which eye is to be corrected for near. Next determine the near add. With trial lenses

of the proper power in place observe the reaction to this mode of correction.
Immediately after the correct power lenses are in place, walk across the room and

have the patient look at you. Assess the patient’s reaction to distance vision under

these circumstances. Then have the patient look at familiar near objects such as a

watch face or fingernails. Again assess the reaction. As the patient continues to look

around the room at both near and distant objects, observe the reactions. Only after

these vision tasks are completed should the patient be asked to read print. Evaluate

the patient’s reaction to large print (e.g. typewritten copy) at first and then graduate

to newsprint and finally smaller type sizes.
After the patient’s performance under the above conditions are completed, tests

of visual acuity and reading ability under conditions of moderately dim illumination

should be attempted.
An initial unfavorable response in the office, while indicative of a guarded prognosis,

should not immediately rule out a more extensive trial under the usual conditions in

which a patient functions.
6. Adaptation
Visually demanding situations should be avoided during the initial wearing period. A

patient may at first experience some mild blurred vision, dizziness, headaches, and

a feeling of slight imbalance. You should explain the adaptational symptoms to the

patient. These symptoms may last for a brief minute or for several weeks. The longer

these symptoms persist, the poorer the prognosis for successful adaptation.
To help in the adaptation process the patient can be advised to first use the lenses in

a comfortable familiar environment such as in the home.
Some patients feel that automobile driving performance may not be optimal during

the adaptation process. This is particularly true when driving at night. Before driving

a motor vehicle, it may be recommended that the patient be a passenger first to

make sure that their vision is satisfactory for operating an automobile. During the first

several weeks of wear (when adaptation is occurring), it may be advisable for the

patient to only drive during optimal driving conditions. After adaptation and success

with these activities, the patient should be able to drive under other conditions with

caution.

7. Other Suggestions
The success of the monovision technique may be further improved by having your

patient follow the suggestions below.
• Having a third contact lens (distance power) to use when critical distance

viewing is needed.

• Having a third contact lens (near power) to use when critical near viewing

is needed.

• Having supplemental spectacles to wear over the monovision contact lenses

for specific visual tasks may improve the success of monovision correction. This

is particularly applicable for those patients who cannot meet state licensing

requirements with a monovision correction.

• Make use of proper illumination when carrying out visual tasks.
Success in fitting monovision can be improved by the following suggestions.
• Reverse the distance and near eyes if a patient is having trouble adapting.
• Refine the lens powers if there is trouble with adaptation. Accurate lens power is

critical for presbyopic patients.

• Emphasize the benefits of the clear near vision in straight ahead and upward

gaze with monovision.

• The decision to fit a patient with a monovision correction is most

appropriately left to the eye care professional in conjunction with the

patient after carefully considering the patient’s needs.

• All patients should be supplied with a copy of the Bausch + Lomb

PureVision

2 Toric (balafilcon A) Visibility Tinted Contact Lens Patient

Information Booklet.

HANdlING Of leNS

Patient Lens Care Directions
When lenses are dispensed, the patient should be provided with appropriate and

adequate instructions and warnings for lens care handling. The eye care professional

should recommend appropriate and adequate procedures and products for each

individual patient in accordance with the particular lens wearing schedule and care

system selected by the professional, the specific instructions for such products and

the particular characteristics of the patient.
frequent / Planned Replacement Wear: For complete information

concerning the care, cleaning and disinfection of contact lenses refer to the Bausch

+ Lomb PureVision

2 Toric (balafilcon A) Visibility Tinted Contact Lens Patient

Information Booklet.
disposable Wear: For complete information concerning emergency lens care,

refer to the Bausch + Lomb PureVision

2 Toric (balafilcon A) Visibility Tinted

Contact Lens Patient Information Booklet.

cARe fOR A STIcKING

(NONMOVING) leNS

If the lens sticks (stops moving), the patient should be instructed to use a lubricating

or rewetting solution in their eye. The patient should be instructed to not use plain

water, or anything other than the recommended solutions. The patient should be

instructed to contact the eye care professional if the lens does not begin to move

upon blinking after several applications of the solution, and to not attempt to remove

the lens except on the advice of the eye care professional.

eMeRGeNcIeS

If chemicals of any kind (household products, gardening solutions, laboratory

chemicals, etc.) are splashed into your eyes, you should: FLUSH EYES

IMMEDIATELY WITH TAP WATER AND THEN REMOVE LENSES

PROMPTLY. CONTACT YOUR EYE CARE PROFESSIONAL OR VISIT A

HOSPITAL EMERGENCY ROOM WITHOUT DELAY.

RePORTING Of AdVeRSe ReAcTIONS

All serious adverse experiences and adverse reactions observed in patients wearing

Bausch + Lomb PureVision

2 Toric (balafilcon A) Visibility Tinted Contact Lenses or

experienced with the lenses should be reported to:
Bausch & Lomb Incorporated

Rochester, New York 14609

Toll free Telephone Number

In the Continental U.S., Alaska, Hawaii

1-800-553-5340

In Canada

1-888-459-5000 (Option 1 - English, Option 2 - French)

HOW SuPPlIed

Each sterile lens is supplied in a plastic blister package containing borate buffered

saline solution. The container is marked with the manufacturing lot number of the

lens, the base curve, sphere power, cylinder power, axis, diameter and expiration

date. Store lenses at room temperature (60°F to 80°F/ 15°C to 25°C).