Prescription Drug Information: Photofrin

PHOTOFRIN- porfimer sodium injection, powder, for solution
Pinnacle Biologics, Inc.

1 INDICATIONS AND USAGE

1.1 Esophageal Cancer

PHOTOFRIN ® is indicated for the palliation of patients with completely obstructing esophageal cancer, or of patients with partially obstructing esophageal cancer who, in the opinion of their healthcare provider, cannot be satisfactorily treated with Nd:YAG laser therapy.

1.2 Endobronchial Cancer

PHOTOFRIN is indicated for the treatment of microinvasive endobronchial non-small-cell lung cancer (NSCLC) in patients for whom surgery and radiotherapy are not indicated.

PHOTOFRIN is indicated for the reduction of obstruction and palliation of symptoms in patients with completely or partially obstructing endobronchial NSCLC.

1.3 High-Grade Dysplasia in Barrett’s Esophagus

PHOTOFRIN is indicated for the ablation of high-grade dysplasia in Barrett’s esophagus patients who do not undergo esophagectomy.

2 DOSAGE AND ADMINISTRATION

2.1 Important Administration Instructions

Photodynamic therapy (PDT) with PHOTOFRIN is a two-stage process requiring administration of both drug and light. The first stage of PDT is the intravenous injection of PHOTOFRIN at 2 mg/kg. Illumination with laser light 40–50 hours following injection with PHOTOFRIN constitutes the second stage of therapy. A second laser light application may be given 96-120 hours after injection [ see Dosage and Administration ( 2.2)] .

In clinical studies on endobronchial cancer, debridement via endoscopy was required 2-3 days after the initial light application. Standard endoscopic techniques are used for light administration and debridement. Healthcare providers should be fully familiar with the patient’s condition and trained in the safe and efficacious treatment of esophageal or endobronchial cancer, or high-grade dysplasia (HGD) in Barrett’s esophagus (BE) using PDT with PHOTOFRIN and associated light delivery devices. PDT with PHOTOFRIN should be applied only in those facilities properly equipped for the procedure.

The laser system must be approved for delivery of a stable power output at a wavelength of 630 ± 3 nm. Light is delivered to the tumor by cylindrical OPTIGUIDE™ fiber optic diffusers passed through the operating channel of an endoscope/bronchoscope. Instructions for use of the fiber optic and the selected laser system should be read carefully before use. OPTIGUIDE™ cylindrical diffusers are available in several lengths. The choice of diffuser tip length depends on the length of the tumor or Barrett’s mucosa to be treated. Diffuser length should be sized to avoid exposure of nonmalignant tissue to light and to prevent overlapping of previously treated malignant tissue. Refer to the OPTIGUIDE™ instructions for use for complete instructions concerning the fiber optic diffuser.

2.2 PHOTOFRIN

Recommended Dosage

The recommended dosage of PHOTOFRIN is 2 mg/kg of body weight administered as a single slow intravenous injection over 3 to 5 minutes.

Preparation and Administration

Reconstitute each vial of PHOTOFRIN with 31.8 mL of either 5% Dextrose Injection (USP) or 0.9% Sodium Chloride Injection (USP), resulting in a final concentration of 2.5 mg/mL. Shake well until dissolved. Do not mix PHOTOFRIN with other drugs in the same solution. Discard unused portion.

PHOTOFRIN reconstituted with 5% Dextrose Injection (USP) or with 0.9% Sodium Chloride Injection (USP), has a pH in the range of 7 to 8. PHOTOFRIN has been formulated with an overage to deliver the 75 mg labeled quantity. The reconstituted product should be protected from bright light and used immediately. Reconstituted PHOTOFRIN is an opaque solution, in which detection of particulate matter by visual inspection is extremely difficult. Reconstituted PHOTOFRIN however, like all parenteral drug products, should be inspected visually for particulate matter and discoloration prior to administration whenever solution and container permit.

Management of Extravasation

Precautions should be taken to present extravasation at the injection site. If extravasation occurs, care must be taken to protect the area from light. There is no known benefit from injecting the extravasation site with another substance.

2.3 Photoactivation

Esophageal Cancer

Initiate 630 nm wavelength laser light delivery to the patient 40-50 hours following injection with PHOTOFRIN. A second laser light treatment may be given as early as 96 hours or as late as 120 hours after the initial injection with PHOTOFRIN. No further injection of PHOTOFRIN should be given for such retreatment with laser light. Before providing a second laser light treatment, the residual tumor may be debrided. The debridement is optional since the residua will be removed naturally by peristaltic action of the esophagus. Vigorous debridement may cause tumor bleeding.

Photoactivation of PHOTOFRIN is controlled by the total light dose delivered. In the treatment of esophageal cancer, a light dose of 300 Joules/cm (J/cm) of diffuser length should be delivered. The total power output at the fiber tip is set to deliver the appropriate light dose using exposure times of 12 minutes and 30 seconds. For the treatment of esophageal cancer, patients may receive a second course of PDT a minimum of 30 days after the initial therapy; up to three courses of PDT (each separated by a minimum of 30 days) can be given. Before each course of treatment, patients with esophageal cancer should be evaluated for the presence of a tracheoesophageal or bronchoesophageal fistula [ see Contraindications ( 4)] . All patients should be evaluated for the possibility that the tumor may be eroding into a major blood vessel [ see Contraindications ( 4)] .

Endobronchial Cancer

Initiate 630 nm wavelength laser light delivery to the patient 4050 hours following injection with PHOTOFRIN. A second laser light treatment may be given as early as 96 hours or as late as 120 hours after the initial injection with PHOTOFRIN. No further injection of PHOTOFRIN should be given for such retreatment with laser light. Before providing a second laser light treatment, the residual tumor should be debrided. Vigorous debridement may cause tumor bleeding. For endobronchial tumors, debridement of necrotic tissue should be discontinued when the volume of bleeding increases, as this may indicate that debridement has gone beyond the zone of the PDT effect.

Photoactivation of PHOTOFRIN is controlled by the total light dose delivered. In the treatment of endobronchial cancer, a light dose of 200 J/cm of diffuser length should be delivered. The total power output at the fiber tip is set to deliver the appropriate light dose using exposure times of 8 minutes and 20 seconds. For noncircumferential endobronchial tumors that are soft enough to penetrate, interstitial fiber placement is preferred to intraluminal activation, since this method produces better efficacy and results in less exposure of the normal bronchial mucosa to light. It is important to perform a debridement 2 to 3 days after each light administration to minimize the potential for obstruction caused by necrotic debris [see Warnings and Precautions ( 5.8)] .

For the treatment of endobronchial cancer, patients may receive a second course of PDT a minimum of 30 days after the initial therapy; up to three courses of PDT (each separated by a minimum of 30 days) can be given. In patients with endobronchial lesions who have recently undergone radiotherapy, sufficient time (approximately 4 weeks) should be allowed between the therapies to ensure that the acute inflammation produced by radiotherapy has subsided prior to PDT [see Warnings and Precautions ( 5.6)] . All patients should be evaluated for the possibility that the tumor may be eroding into a major blood vessel [see Contraindications ( 4) ].

High-Grade Dysplasia (HGD) in Barretts Esophagus (BE )

Prior to initiating treatment with PHOTOFRIN PDT, the diagnosis of HGD in BE should be confirmed by an expert GI pathologist. Approximately 40-50 hours after PHOTOFRIN administration light should be delivered by a X-Cell Photodynamic Therapy (PDT) Balloon with Fiber Optic Diffuser. The choice of fiber optic/balloon diffuser combination will depend on the length of Barretts mucosa to be treated ( Table 1).

TABLE 1. Fiber Optic Diffuser/Balloon Combination *
*
Whenever possible, the BE segment selected for treatment should include normal tissue margins of a few millimeters at the proximal and distal ends

Treated Barretts Mucosa Length (cm)

Fiber Optic Diffuser Length (cm)

Balloon Window Length (cm)

6-7

9

7

4-5

7

5

1-3

5

3

Photoactivation is controlled by the total light dose delivered. The objective is to expose and treat all areas of HGD and the entire length of BE. The light dose administered will be 130 J/cm of diffuser length using a centering balloon. Based on the randomized clinical study, acceptable light intensity for the balloon/diffuser combinations range from 200-270 mW/cm of diffuser length.

To calculate the light dose, the following specific light dosimetry equation applies for all fiber optic diffusers:

Light Dose (J/cm) =

Power Output From Diffuser (W) x Treatment Time (s)

Diffuser Length (cm)

Table 2 provides the settings that will be used to deliver the dose within the shortest time (light intensity of 270 mW/cm). A second option (light intensity of 200 mW/cm) has also been included where necessary to accommodate lasers with a total capacity that does not exceed 2.5 W.

TABLE 2. Fiber Optic Power Outputs and Treatment Times Required to Deliver 130 J/cm of Diffuser Length Using the Centering Balloon

Note: No more than 1.5 times the required diffuser power output should be needed from the laser. If more than this is required, the system should be checked.

*
As measured by immersing the diffuser into the cuvet in the power meter and slowly increasing the laser power.

Balloon Window Length (cm)

Fiber Optic Diffuser Length (cm)

Light Intensity (mW/cm)

Required Power output from Diffuser * (mW)

Treatment Time

(sec)

(min:sec)

3

5

270

1 350

480

8:00

5

7

270

1 900

480

8:00

7

9

270

2 440

480

8:00

200

1 800

480

10:50

Short fiber diffusers (2.5 cm) are to be used to pretreat nodules with 50 J/cm of diffuser length prior to regular balloon treatment in the first laser light session or for the treatment of skip areas (i.e., an area that does not show sufficient mucosal response) after the first light session. For this treatment, the fiber optic diffuser is used without a centering balloon, and a light intensity of 400 mW/cm should be used. For nodule pretreatment and treatment of skipped areas, care should be taken to minimize exposure to normal tissue as it is also sensitized. Table 3 lists appropriate fiber optic power outputs and treatment times using a light intensity of 400 mW/cm.

TABLE 3. Short Fiber Optic Diffusers to be Used Without a Centering Balloon to Deliver 50 J/cm of Diffuser Length at a Light Intensity of 400 mW/cm

Note: No more than 1.5 times the required diffuser power output should be needed from the laser. If more than this is required, the system should be checked.

*
As measured by immersing the diffuser into the cuvet in the power meter and slowly increasing the laser power.

Fiber Optic Diffuser Length (cm)

Required Power Output From Diffuser *

(mw)

Treatment Time

(sec)

Treatment Time (min:sec)

1.0

400

125

2:05

1.5

600

125

2:05

2.0

800

125

2:05

2.5

1000

125

2:05

A maximum of 7 cm of esophageal mucosa is treated at the first light session using an appropriate size of centering balloon and fiber optic diffuser ( Table 1). Whenever possible, the segment selected for the first light application should contain all the areas of HGD. Also, whenever possible, the BE segment selected for the first light application should include normal tissue margin of a few millimeters at the proximal and distal ends.

Nodules are to be pretreated at a light dose of 50 J/cm of diffuser length with a short (2.5 cm) fiber optic diffuser placed directly against the nodule followed by standard balloon application as described above.

Repeat Light Application

A second laser light application may be given to a previously treated segment that shows a skip area, using a short, 2.5 cm, fiber optic diffuser without centering balloon at the light dose of 50 J/cm of the diffuser length. Patients with BE >7 cm, should have the remaining untreated length of Barretts epithelium treated with a second PDT course at least 90 days later.

The treatment regimen is summarized in Table 4.

TABLE 4. High-Grade Dysplasia in Barretts Esophagus

NA: Not Applicable

*
Discrete nodule will receive an initial light application of 50 J/cm (using a short fiber optic diffuser without balloon) before the balloon light application.

Procedure

Study Day

Light Delivery Devices

Treatment Intent

PHOTOFRIN

Day 1

NA

Uptake of photosensitizer

Laser Light Application

Day 3 *

3, 5 or 7 cm balloon

(130 J/cm)

Photoactivation

Laser Light Application (Optional)

Day 5

Short (2.5 cm) fiber optic diffuser (50 J/cm)

Treatment of skip areas only

For the ablation of HGD in BE, patients may receive an additional course of PDT at a minimum of 90 days after the initial therapy; up to three courses of PDT (each injection separated by a minimum of 90 days) can be given to a previously treated segment which still shows HGD, low-grade dysplasia, or Barretts metaplasia, or to a new segment if the initial Barretts segment was >7 cm in length. Both residual and additional segments may be treated in the same light session(s) provided that the total length of the segments treated with the balloon/ diffuser combination is not greater than 7 cm. In the case of a previously treated esophageal segment, if it has not sufficiently healed and/or histological assessment of biopsies is not clear, the subsequent course of PDT may be delayed for an additional 1-2 months.

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