Case Study: Designing Drug Virtually

11 October 2015

CASE SUMMARY

Pharmaceutical companies and medical researcher are constantly trying to find new drugs that will provide better treatments especially for cancer and other serious illness. Drug development, testing and administration are information-intensive area with varying computing needs.

In this case, the experience of the medical research engaged in drug discovery by showing how technology can benefit the business performance through the acquisition and application of knowledge. In order to success and survive in all areas of business including medical research, it is vital to facilitate access to knowledge, improving the quality and currency of knowledge as well as using that knowledge to improve the business processes. It is challenging to develop new drugs because drug discovery process is so painstaking and complicated. Traditional method was not very accurate or effective and depended too much on trial-and-error. However, the processes of drug discovery have been changed by the development of new processes for visualizing and design new drugs as well as the use of powerful computers and information technology.

QUESTION 1 : Why are computers so important in drug discovery?

• Previously, traditional methods of drug discovery rely on trial-and-error testing of chemical substances on cultured cells or animals, and matching the apparent effects to treatments.
• The traditional drug discovery processes are painstaking and complicated. It is take a lot of time and a lot of process and too much trial-and-error.
• Drug discovery and development is an intense, lengthy and an interdisciplinary endeavour. Drug development companies tried to speed up the process by creating huge libraries of potential compounds and using robots to quickly review hundreds of thousands of sample to see if any worked. For the pharmaceutical industry, the number of years to bring a drug from discovery to market is approximately 12-14 years and costing up to $ 1.2 - $ 1.4 billion dollars.
• The use of complementary experimental and informatics techniques increases the chance of success in many stages of the discovery process, from the identification of novel targets and elucidation of their functions to the discovery and development of lead compounds with desired properties.
• The researchers had no idea and not understand the “key” or the “lock”. Scientists were used the powerful computers to analyze thousands of interference patterns.

• Next, researchers must find a custom molecule to fit that particular “lock”.
• The molecule must be able to bind to target, be synthesized and manufactured in large quantities, and be metabolized by body at just the right rate.
• High attrition rate of failure – traditional development process has resulted in high attrition rates with failures attributed to poor pharmacokinetics (39%), lack of efficacy (30%), animal toxicity (11%), adverse effects in humans (10%) and various commercial and miscellaneous factors.Computation tools offer the advantage of delivering new drug candidates more quickly and at a lower cost.
• To discover of drug for rate and unusual disease treatment.
• Accurate and efficient process for developing effective medications and for understanding how drugs actually work.Subsequently, researchers must find a custom molecule to fit that particular “lock”.
• This is because the molecule must be able to:
• Bind to the target
• Be synthesized and manufacture in large quantity
• Be metabolized by the body at just the right rate
• That is why computers are so important in the drug discovery process
• Eventually, the high-powered computers help evaluate the structures and properties of molecules that are most likely to bind to that target and rapidly search database libraries of chemical structures in order to identify the most promising candidates.

QUESTION 2: What roles played by computers in the drug discovery process?

• Generally, in the field of medicine, drug discovery is the process by which new candidate medications are discovered.
• The objective of drug design is to find a chemical compound that can fit to a specific cavity on a protein target both geometrically and chemically.
• It is generally recognized that drug discovery and development are very time and resources consuming processes.
• There is an ever growing effort to apply computational power to the combined chemical and biological space in order to streamline drug discovery, design, development and optimization.

• In biomedical arena, computer-aided is being utilized to expedite and facilitate hit identification, hit-to-lead selection, optimize the absorption, distribution, metabolism, excretion and toxicity profile and avoid safety issues.
• The development of any potential drug begins with years of scientific study to determine the biochemistry behind a disease, for which pharmaceutical intervention is possible.
• The result is the determination of specific receptors (target).
• In the modern era, computer-aided drug design (CADD) has considerably extended its range of applications, spanning almost all stages in the drug discovery pipeline, from target identification to lead discovery, from lead optimization to preclinical or clinical trials.
• Drug researchers using structure-based design benefit from a new process of visualizing and modeling promising compounds at the molecular level.

• Facilitate the acquisition and application of knowledge.
• Improving the quality and currency of knowledge.
• Improve business processes in all areas of business as well as in medical research.
• Assist in building hypotheses about desirable chemical properties when designing the drugs, to refine and modify drugs candidates.
• Compound databases provide the physico-chemical structural data for computational drug discovery method used in component screening and profiling. 

Briefly, the IT plays an important role in drug discovery process by:

• Computer – analyzing molecular structure
• Databases – organizing data about specific molecules and compounds.
• Software’s – visualizing and modeling molecules
• Designing potential new drugs using computational approaches and chemical/ biological experiments

CONCLUSION

In recent years, computational drug design and more specifically virtual screening, has emerged as a powerful tool in drug discovery. There are numerous approaches to drug design depending on the types of information available about the bioactive ligands and the therapeutic protein target.

Case Study: Albassmi's Job is Not Feasible Without IT

12 October 2015

INTRODUCTION

AL Bassami International Group is considered one of the biggest companies specialized in vehicle transportation in the Middle East. Al Bassami International Group provides car haulage services through trucks. The company owns and operates trucks fleets. Al Bassami International Group was formerly known as Al Bassami Transportation. The company is based in Riyadh, Saudi Arabia. The Group started its activity in 1968.

The founder is Saeed Al-Bassami (Deputy Head of the Council of Saudi Chambers of Commerce and Industry’s national transport committee. The services like Air Freight, Sea Freight, Door to door, Domestic and International Courier.

AL Bassami International Group has a variety of activities on which it has a good grip. These are:

• All kinds of vehicle transportation services
• Transportation of goods and supplies
• Special transportation services (VIP)
• Trucks and vehicle maintenance and repair center

Serving the needs of this client over the span of thirty two years, throughout which the company have constantly had an eye to the future by evaluating the most appropriate ways in which to make transporting the vehicle by Al Bassami the best and safest answer. This company operate round the clock and that is the least can do for clients now and in the future.

At present, the group is operating all over the Kingdom and extends throughout the Gulf Cooperation council (GCC) countries, Syria, Lebanon and Jordan. More than 1000 shipping contract, including 2000 to 2500 bills of lading daily occurred between the main brainchess. Albassami International Group is considered one of the leading land transporters in the Middle East. The estimated size of the car transportation market, both inside the Kingdom and with neighboring countries, is about 2 billion Saudi riyals and is increasing considerably annually.

QUESTION 1 :  What systems are described here? What valuable information do they provide?

There are two system are implementation in the Albassmi group are describe in this case which are as follows:-

1.            Database management system (DBS)

The database management system, used as the backbone of the system, is Sybase Adaptive server, whereas client use SQL anywhere. There are replication between the server at HQ and the client’s branches. Throughout the replication, branches data is sent to server and aggregated to create most update database version, and then send back to the branches. This means every branches have the most recent version of client list, truck’s availability, and new shipping contracts so that any customer is able to deal with any branch at anytime.

2.            Shipping information system

Maintains all the sender information such as the sent car, the track number, the sender and the receiving branches and send the SMS message to the client acknowledging the arrival of the car. The system also records the client data and hold maintenance information. The system also enables standard report to be provided to top management and head sectors about the productivity of each branch. The system allowed a better audit on all drivers’ behaviour.

QUESTION 2 : What value did the IT/IS investments add to albassami?

By investment in IT/IS, value added are :

• Enhance company performance.
• Achieve better customer services.
• Helps top management make faster decision and reduce error in decision making by using accurate data provided by the system.
• Proper performance and monitoring resulted in adequate employees’ appraisals and consequently loyal staff.
• Knowledge extracted from central database has enable the management  team to make sound investment and operational decision and therefore help the business maintain its success leadership in Kingdom.

QUESTION 3 : How did implementing the shipping information system address the business needs and information requirements of albassami?

Maintains all the sender information :

• Sent car
• The truck number
• The sender and receiving branches
• Send an SMS to the client acknowledging the arrival of the car.

The system also records :

• The client’s data
• Holds maintenance information
• Linking the data of vehicle maintenance centre with the transportation service helps to enhance company performance and achieve better customer service.
• Enables standard reports to be provided to top management and head sectors about the productivity of each branch. In addition, the system allowed a better audit on all drivers’ tracking information.

CONCLUSION

Albassami’s job is feasible with the help of IT technology. It would be very difficult for the company to integrate all branches on a common platform without IT Technology.