Devices and methods for pharmacokinetic-based cell culture system

a cell culture system and cell culture technology, applied in specific use bioreactors/fermenters, biomass after-treatment, instruments, etc., can solve the problems of unrealistic cell type ratio, non-physiological high liquid-to-cell ratio, and still substantial limitations, so as to enhance the predictive value and in vivo relevance of screening and toxicity assays

Inactive Publication Date: 2007-01-25
CORNELL RES FOUNDATION INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0011] Devices, in vitro cell cultures, and methods are provided for a microscale cell culture analog (CCA) device. The devices of the invention permit cells to be maintained in vitro, under conditions with pharmacokinetic parameter values similar to those found in vivo. Pharmacokinetic parameters of interest include interactions between cells, liquid residence time, liquid to cell ratios, relative size of organs, metabolism by cells, shear stress, and the like. By providing a pharmacokinetic-based culture system that mimics the natural state of cells, the predictive value and in vivo relevance of screening and toxicity assays is enhanced.

Problems solved by technology

One of the fundamental challenges researchers face in drug, environmental, nutritional, consumer product safety, and toxicology studies is the extrapolation of metabolic data and risk assessment from in vitro cell culture assays to animals.
Although some conclusions can be drawn with the application of appropriate phannacokinetic principles, there are still substantial limitations.
These systems have non-physiological high liquid-to-cell ratios, and have an unrealistic ratio of cell types (e.g., ratio of liver to lung cells).
These systems more closely resemble physiological conditions, but are still deficient because they do not mimic physiological conditions accurately enough for predictive studies.
While biotransformation can be beneficial, it may also have undesirable consequences.
During the process of biotransformation, the resulting metabolite can be more toxic than the parent compound.
Consequently, accurate prediction of human responsiveness to potential pharmaceuticals is difficult, often unreliable, and invariably expensive.
In vitro cell culture assays are of limited value because they do not accurately mimic the complex environment a drug candidate is subjected to within a human and thus cannot accurately predict human risk.
Similarly, while in vivo animal testing can account for these complex inter-cellular and inter-tissue effects not observable from in vitro cell-based assays, in vivo animal studies are extremely expensive, labor-intensive, time consuming, and often the results are of doubtful relevance when correlating human risk.
This system is very expensive to operate and requires a large amount of space in which to operate.
It is impossible to accurately generate physiologically realistic conditions at such a large scale.

Method used

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  • Devices and methods for pharmacokinetic-based cell culture system
  • Devices and methods for pharmacokinetic-based cell culture system
  • Devices and methods for pharmacokinetic-based cell culture system

Examples

Experimental program
Comparison scheme
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example 1

Calculations for a System Replicating a Rat

[0184] In designing the chip 1000 all necessary chambers were fit onto a silicon chip no larger than 2 cm by 2 cm. This size of chip is easy to manufacture and is compatible with the sizes of connective tubing and pumping devices intended for use to direct fluid flow. There were also several other important factors constraining the design of the device listed below, along with acceptable values for each variable. This one embodiment of the device consists of a two compartment system, one compartment representing the liver of a rat and one compartment representing the lung of a rat. The total size of the chip is 2 cm by 2 cm and consists of an interconnected array of 20 parallel channels 40 μm wide, 10 μm deep and 5 mm long to serve as the “Lung” chamber and two parallel channels 100 μm wide, 20 μm deep and 10 cm long in a serpentine shape to serve as the “liver” chamber. The two organ compartments are connected by a channel 100 μm wide and...

example 2

A Four Organ Compartment Chip

[0194] A chip was designed to consist of four organ compartments—a “liver” compartment to represent an organ responsible for xenobiotic metabolism, a “lung” compartment representing a target tissue, a “fat” compartment to provide a site for bio-accumulation of hydrophobic compounds, and an “other tissues” compartment to assist in mimicking the circulatory pattern in non-metabolizing, non-accumulating tissues (FIG. 15). These and other organ compartments (e.g., kidney, cardiac, colon or muscle) can be fully modularized as CAD files and can be fabricated in any configuration or combination. The device itself can be produced in any number of substrates (e.g., silicon, glass, or plastic).

[0195] Once the cells were seeded in the appropriate compartments, the chip was assembled in a Lucite manifold. This manifold holds four chips and contained a transparent top so the cells could be observed in situ. The top contained fluid interconnects to provide cell cult...

example 3

Drug Metabolism in the Chip

[0197] The metabolism of two widely used prodrugs, tegafur and sulindac sulfoxide, was studied using a microscale chip comprising three compartments, liver, target tissue, and other tissues. Both prodrugs require conversion to an active metabolite by enzymes present in the liver, and have a cytotoxic effect on a target organ. For the prodrug sulindac sulfoxide, its anti-inflammatory and cancer chemopreventive properties are derived from its sulfide and sulfone metabolites, catalyzed by the liver enzyme sulfoxide reductase. The sulfide metabolite (and a second sulfone metabolite) have been demonstrated to induce apoptosis in certain cancer cells (e.g., colon cancer).

[0198] A proper treatment regimen requires administration of its prodrug, tegafur [5-fluoro-1-(2-tetrahydrofuryl)-2,4(1H,3H)-pyrimidi-nedione] as 5-FU itself is quite toxic to normal cells. Unlike sulindac however, tegafur is converted to 5-FU in the liver primarily by cytochrome P450 2A6.

[01...

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Abstract

Devices, in vitro cell cultures, systems, and methods are provided for microscale cell culture analogous (CCA) device.

Description

RELATED APPLICATIONS [0001] This application is a continuation of U.S. patent application Ser. No. 10 / 133,977, filed Apr. 25, 2002, which claims priority to U.S. Provisional Patent Application No. 60 / 286,493, filed Apr. 25, 2001, the entirety of which are incorporated herein by reference.STATEMENT REGARDING GOVERNMENT RIGHTS [0002] This invention was supported at least in part under grant number NAG8-1372 from the National Aeronautics and Space Administration. The U.S. Government may have certain rights in the invention.FIELD OF THE INVENTION [0003] The field of the invention is cell culture devices and methods of use. BACKGROUND OF THE INVENTION [0004] Pharmacokinetics is the study of the fate of pharmaceuticals and other biologically active compounds from the time they are introduced into the body until they are eliminated. For example, the sequence of events for an oral drug can include absorption through the various mucosal surfaces, distribution via the blood stream to various ...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G01N33/53G06F19/00C12M1/34C12M1/00C12M1/36C12M1/38C12M3/00C12P1/00C12Q3/00
CPCC12M23/16C12M41/48C12M23/44C12M35/08G01N33/5008C12N5/0671G01N33/5067C12N5/0062C12M41/46
Inventor SHULER, MICHAELBAXTER, GREGORY T.SIN, AARONHARRISON, ROBERT ANDREWMEYERS, SCOTT
Owner CORNELL RES FOUNDATION INC
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