Bioelectronic medicine utilizes implanted devices to modify neural signals for treating diseases such as rheumatoid arthritis, diabetes, and cancer by altering electrical pulses in nerves. This interdisciplinary approach combines aspects of molecular medicine, neuroscience, and technology to revolutionize disease management and improve therapeutic outcomes. Recent advancements include spinal cord stimulators and innovative glucose-monitoring contact lenses from Google.

1. Presented By : Elisetti Sanjay Kumar
M.PHARM ,1ST Year
Dept : Pharmaceutics
UNIVERSITY INSTITUTE OF
PHARMACY SCIENCES
bio electronic medicine

2. CONTENT
• Introduction
• Defination
• How it works
• How diseases aretreated by
bioelectronic device?
• Examples of diseases
• Application
• Recent inventions
• references

3. INTRODUCTION
 By using bio electronic medicine
technologies to record ,stimulate and
block neural signals which will change the
way we treat disease , injuries and
conditions such as rheumatid arthritis
,diabetes , paralysis , bleeding and even
cancer.

4.  Bioeletronic medicine is the convergence
of molecular medicine , neuroscience,
engineering and computing to develop
devices to diagnose and treat diseases ,is
at the forefront of potential revolution in
disease management .
 Bioelectronic devices used in the central
nervous system ,increasingly applied in
clinical trials .

5. DEFINITION
 Bio electronic medicine are a tiny
implanted device treating disease by
changing the electric pulses in nerves to
and from specific organ .
 Bioeletronic medicine has emerged at a
convergent epicentre in health care
,technology and science .

8. HOW DISEASES ARE TREATED BY
BIOELECTRONIC DEVICE?
1.ARTHRITIS
Bioelectronic potentially treat arthritis :
The nervous system triggers production
of proteins that cause an immunue response
and lead to inflammation of the joints ,that a
small device could be attached to a nerve to
potentially stop that chain reaction .

10. 2.ASTHAMA
The device attached to a pulmonary
nerve to potentially block they Signals
that cause the lungs to constrict .

11. 3. HYPERTENSION

12. PACEMAKER (artificial pacemaker)

13. Artificial limb/hands
The people who have lost their legs/hands in
accident or any natural cause treated by bio-
electronic medicine or device.

14. Biosensors
Attached to body for measuring or monitoring
stress and body temperature in specific part of
body.

15. EXAMPLES OF DISEASES
 Bleeding and Hemophilia
 Cancer
 Chronic pain
 Chronic obstructive pulmonary disease
 Diabetes
 Epilepsy
 High blood pressure
 Parkinson’s disease
 Spinal cord injury

16. APPLICATION OF
BIOELECTRONICS
 The integration of biomaterials with
electronics, such as electrodes , chips ,
hybrid systems that may function as
biofuel cells ,biosensors and
biocomputing devices.
 Bioelectronic devices have huge
scientific and practical importance for
basic science as well as for possible
applications in medicine , high –tech
industry , the military etc.

17. Recent inventions
 Spinal cord stimulator
 Deep brain stimulator
 Googles recently announced contact lenses that
monitor glucose levels.

18. REFERNCES
 Article of bioelectronic medicines :
Technology targeting molecular
mechanisms of therapy .
 Bioelectronic medicine :
new typeof personalization .

19. Thank you