Bio-Rad PDS-1000 / He™ and Hepta™ Systems User Manual

8.3 Specifications

General Specifications, PDS-1000/He Biolistic Particle Delivery System

Dimensions

29 (width) x 25.5 (depth) x 47.5 (height) cm

Construction

Aluminum, ABS plastic and acrylic chassis

Weight

15 kg

Electrical
input voltage

100-120 VAC, 50- 60 Hz

Maximum current

<5 Amps

Mechanical

Fuse

6.3 A, 250 V, 5 x 20 mm

Vacuum

<0.4 inches Mercury/minute leakage

Over-Pressure

0.5 psi relief valve, self-resetting

Environmental

Operating

32 °F (0 °C) to 95 °F (35 °C) temperature, 0-95%
non-condensing humidity

Storage

32 °F (0 °C) to 158 °F (70 °C) temperature, 0-95%
non-condensing humidity

Sole Source Specifications, PDS-1000/He Biolistic Particle Delivery System

The following are the sole source specifications for the Biolistic PDS-1000/He unit:

1. The system is covered by patents numbers 161807, 670771, 877619, 074652, IP-0844,

07/303/503, 07/529989, 437848, 4945050, 5036006, 5100792, and 621561 together with

all continuations, divisionals, and continuations-in-part applications, any patents that issue

on applications and reissues thereof. The Biolistic PDS-1000/He instrument is available for

sale or lease accordingly. Biolistic is a registered trademark of E. I. du Pont de Nemours

and Company. The Biolistic technology is exclusively licensed to Bio-Rad Laboratories.

2. A system capable of generating high pressure gas delivery with a mechanism for deliv-

ering an instantaneous cold gas shock wave into an enclosure where the gas shock is

released, contained and vented.

3. The unit contains a throat region in the high pressure gas delivery system that allows for

interchangeable inserts (rupture disks) which translates the cold gas shock into acceleration

of microprojectiles coated with biological molecules for delivery into diverse target cells/tis-

sue without killing the cells and/or tissue. Nine interchangeable disks are available in 450, 650,

900, 1,100, 1,350, 1,550, 1,800, 2,000 and 2,200 pounds per square inch (psi) pressure.

4. Employs a method for launching the biologically coated microcarriers from the target

side of a planar surface of a flexible plastic sheet that is positioned to be accelerated by

the gas shock wave such that it will move freely in the direction of the target cells until

restrained by a barrier. The barrier permits the microcarriers to move toward the target cells

and also effectively baffles the gas shock wave to deflect some of the force of the cold gas

shock wave away from the target cells with sufficient acceleration of microprojectiles

coated with biological molecules for delivery into diverse target cells/tissue without killing

the cells and/or tissue.

46