Test-Tube Replacement Organs

By Patrick J. Kiger, Science Channel

Researchers at Wake Forest University announced this week that they had successfully used immature human liver and endothelial cells to grow a tiny miniature version of a working human liver in a laboratory.

The experiment, conducted at the university medical center's Institute for Regenerative Medicine, succeeded in creating liver sections about half an inch in diameter. It marked the first time that human cells had been used to grow a liver. The advance may pave the way for a development that futurists have long envisioned: In vitro transplant organs fashioned from a patient's own cells, which would eliminate the need for carefully-matched donors. Additionally, such replacements would eliminate the need for a transplant patient to take powerful--and hazardous-- immunosuppressant drugs to prevent the new organ from being rejected by his or her body.

As this CBS News story explains, the Wake Forest researchers started with animal livers that they treated with a mild detergent to most of the components of liver cells, leaving behind only a collagen "skeleton."

They then filled that collagen frame with two types of human cells--immature liver cells known as progenitors, and endothelial cells that line blood vessels.

"Our hope is that once these organs are transplanted, they will maintain and gain function as they continue to develop," lead researcher Pedro Baptista told CBS News.

The manmade liver is the latest in a series of breakthroughs in in-vitro growth of replacement organs. As this New Scientist article details, in 2006, Wake Forest researchers managed to grow artificial bladders in the lab and surgically graft them onto the bladders who seven children stricken with incontinence and serious kidney problems.

More recently, in March, British and Italian researchers successfully transplanted into a 10-year-old boy a trachea grown from his own stem cells, attached to a collagen scaffold. Here's a press release describing the procedure.

Researchers' success in growing hearts and lungs and transplanting them into rats suggests that similar breakthroughs may be ahead for humans, as well. But Singularity Hub senior editor Aaron Saenz points out in this post, there are still considerable hurdles to overcome before the transplantation of in vitro replacement organs can be used to help human patients.

"There's a lot more growth needed to create a functional replacement, and it won't be as easy as simply allowing the liver cells to keep reproducing in thicker clusters," Saenz writes. "There are real concerns about how to get the cells to receive nutrients while in the bioreactor and to grow along the entire scaffold." Growing a full-size functional human liver, he says, will require "some serious bioengineering."

The idea of growing replacement organs may have been first espoused in a book, The Culture of Organs, authored by Nobel Laureate Alexis Carrel and aviator and futurist Charles Lindbergh back in 1937. But for years, the notion seemed like something better suited to science fiction.

Here's a 2007 TED lecture by regenerative medicine specialist Alan Russell, in which he discusses the future prospects for growing replacement organs. "If a newt can do this kind of thing, why can't we?" he asks.

A Simple Definition of What Interactive White Boards and Smart Boards Are

Smartboard in the classroom

The term "SmartBoard" is actually a trademarked brand of device generically referred to as an Interactive White Board (IWB). In the US, the term SmartBoard has become the common name used to refer to IWB’s even though there are many different companies that currently manufacture and distribute similar IWB technologies. But what exactly is a SmartBoard or an IWB?

An Interactive White Board is a broad name for a device that, when used with a computer and some type of large video display, makes the surface of the display become touch sensitive in some manner and allows it to be used to control the computer. In the United States SmartBoards (sold by Smart Technologies Inc.) are the most well known manufacturers of IWB’s. Another company, Promethean Technologies, is equally popular in Europe, but is only recently making a push in the American market. Both the Promethean and the SmartBoard products are compatible with both Windows and Macintosh computers and both come with numerous tools for creating SmartBoard and IWB resources.

Interactive White Board

Other companies also make IWB products, with some such as Mimio and EBeam making portable devices that attach by suction cups to existing traditional white boards, turning them into interactive devices when coupled with a video projector and computer. The portable units are more appropriate for traveling business people and those who do not have the room or budget to retrofit a room to use the permanently mounted devices mentioned previously.

What Are SmartBoards and Interactive White Boards Used For?

Pens

IWB’s are fast becoming a popular addition to school classrooms as well as to office meeting spaces. The interactivity that an IWB provides allows teachers or professional presenters to let their audience collaborate, draw, and interact with information on the screen. Lessons and activities in a classroom setting become more engrossing for students and increase overall retention of the lesson content. Research done by Smart as well as by the British Economic and Social Research Council shows clearly that teachers that use IWB’s see greater improvement from their students compared to classrooms that do not use IWB enriched classroom content.

In business situations SmartBoards and Interactive White Boards increase productivity by allowing collaborative work sessions to be shared digitally, saved, and reused without having a physical hard copy. Anything drawn on the SmartBoard can be saved as an image and recalled days, months, or years later. Visual copies of written data can be sent via email quickly and easily without the need for cameras or retyping.

Applications

While not for everyone, SmartBoards and Interactive White Boards are powerful tools that can be used in many useful ways to help individuals share and process information. Ranging in cost from a few hundred to several thousand dollars, Interactive White Board products are available for almost every budget.

Refer to the link below for the example of smart board application:

Respiration 

What Is Modeling And Simulation?

A model is a simplified representation of a system at some particular point in time or space intended to promote understanding of the real system. 

A sample of Modeling

A simulation is the manipulation of a model in such a way that it operates on time or space to compress it, thus enabling one to perceive the interactions that would not otherwise be apparent because of their separation in time or space. 

Modeling and Simulation is a discipline for developing a level of understanding of the interaction of the parts of a system, and of the system as a whole. The level of understanding which may be developed via this discipline is seldom achievable via any other discipline. 

A sample of Simulation

A simulation generally refers to a computerized version of the model which is run over time to study the implications of the defined interactions. Simulations are generally iterative in there development. One develops a model, simulates it, learns from the simulation, revises the model, and continues the iterations until an adequate level of understanding is developed.

Here are the unique features of modeling and simulation:

Refer to the link below for sample of modeling and simulation:

http://phet.colorado.edu/sims/mass-spring-lab/mass-spring-lab_en.html

http://teachhealthk-12.uthscsa.edu/studentresources/AnatomyofBreathing3.swf

PRESENTATION: BETTER SCIENCE THROUGH DATA LOGGING

THE MIRACLE OF MAN'S CREATION

PART 1

PART 2

PART 3

PART 4

PART 5

PART 6

PART 7

FINAL

PARTS OF AN ANIMAL CELL

PARTS OF A PLANT CELL