Biomedical 2017 October 16-17, 2017 Osaka, Japan

Biomedical Technology is the applied methodology of engineering principles and advanced technology to the biological systems. Biomedical concerns with the problems related to diseases and their treatment that involve wide range of activities from medical designed instruments with developed technologies and methodologies. Biomedical Material Research is mainly focused on biomedical companies and marketing analysis

Biomedical Device Engineering includes instrumentation for diagnosing, preventing or treating diseases. The study and design of engineering methods without any chemical action in the body can be achieved through the Medical imaging devices.  Photo detectors and Biomedical Chromatography is recently obtaining its importance in the science field through its advancements.

The hybrid of computer technology to the management of biological information is known as biomedical informatics. The biological and genetic information is used to be gathered, stored, analyzed and integrated by using computers, further used for drug discovery and development related to genes. 

Bio molecular Engineering is the interface of molecular biology, chemical engineering, and biophysical chemistry — whose purpose is developing novel molecular tools, materials and approaches that are the focal point of applied and basic research within academics, medicine and industry.

Bioengineering is the medical application of the engineering principles to the biological systems. The practice of Biomedical Engineering has attained its importance in various fields like Neuro-robotics, Tissue mechanics, Clinical and Neural Systems Engineering. The development of Bioengineering advances biology and medicinal practice in life sciences.

Biomedical Signal Processing deals with typical implications of signal processing techniques in biomedical signals. This aims for the quantitative analysis of physiological systems and also to extract information from various biological signals to improve diagnosis, therapy and rehabilitation in diseased patients. 

With the advent of  biomedical engineering in cancer treatments new surgical techniques such as microsurgery resulted in more successful treatments of cancer disease. It enhanced our understanding and treatment options for cancer using the latest methods and approaches in engineering. The broad goals are to apply the latest engineering methods and techniques (imaging, microfluidics, and optogenetics) to enhance treatment of cancer.

Wearable Biomedical Sensors & Systems tend to be more enlightened on the market today because they can provide sensory and scanning features which are not seen in regular electronic gadgets, such as biofeedback and tracking of physiological function. Wearable technology will have some form of communications capability and will allow the wearer access to information in real time.  Wearable devices using in the present day include watches, contact lenses, e-textiles and smart fabrics, bracelets, and hearing aid-like devices etc.

Biosensors are the integrated devices which are capable of integrating a biological element with a physicochemical transducer to produce an electronic signal proportional to a single analyte which will be conveyed to a detector. These are highly specific and biocompatible.

Bionics is one of the greatest achieviements of science which is made up of an artificial body parts that intensify or replace for a natural biological capability. They mimic the action of the natural organs. Mostly used bionics is bionic eye, bionic limbs, bionic ear etc. 

Biorobotics is an emerging technology that converge biomedical engineering and robotics. It is the science and engineering of robotics applied in the Biomedical field, with the development of biomedical devices for surgery and rehabilitation, as well as with the modeling of biological systems. It is also the construction of physical models of the biological systems, as bio inspired and biomimetic robots. 

Biomedical imaging encloses various imaging modalities and procedures to image the human body for diagnostic and treatment purposes. The X-ray based diagnostic processes play major role in medical setting and various levels of healthcare.

Neuro-Developmental Engineering (NDE) is a newly developing research area converging with the developmental neuroscience and bioengineering focusing to provide new methods and tools for understanding neuro-biological mechanisms and modeling of the human behavior during neuro development.

A WBAN imparts a continuous health monitoring of a patient without any restriction on their daily activities. A large number of technologies have proved their coherence in supporting WBANs applications, like remote monitoring, biofeedback and assisted living by responding to their specific quality of service (QoS) requirements.

Neuroprosthetics are the devices that detect neural activity into command sequences for computers and prostheses. They take some type of signal from brain and convert it into other device control so that it reflects the intensions of user brain. This is becoming the practical reality for the people with motor disorders.

BCI acquires the brain signals and analyses them to translate into commands which are relayed on to output device. The main objective of BCI is to establish useful function to the people with neuromuscular disorders and also prove useful for rehabilitation after stroke.