Difference between pages "SC Johnson" and "Smart miniature drug delivery systems"

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== About SC Johnson ==
+
==Background==
* SC Johnson (SC Johnson & Son, Inc.), previously known as SC Johnson Wax (and earlier, Johnson Wax), is a global manufacturer of household cleaning supplies and other consumer chemicals based in Racine, Wisconsin.
+
* It has operations in nearly 70 countries and its brands are sold in over 110 countries.
+
* In 2008 S. C. Johnson & Son employed approximately 12,000 and had estimated sales of $7.5 billion.
+
  
== SC Johnson’s Sustainability Platforms ==
 
SC Johnson’s sustainability efforts target four key platform areas where they believe they can make the biggest impact on quality of life, economic progress, their product mix and the planet. They are:
 
[[Image:SCJ1.jpg|thumb|center|400px|]]
 
  
== Leading With Innovation ==
+
===Introduction===
* In 2008, SC Johnson acquired The Caldrea Company, marketer of the Mrs. Meyer’s Clean Day® and Caldrea® brands.  
+
*'''The smart miniature drug delivery system''' is for delivering the drugs to the host.Biological information is detected by biological sensors, the information is analyzed and drug delivery system is actuated to deliver the drug based on the information.
* Also became the majority shareholder of Fruits & Passion, a Quebec company that manufactures and sells body care and lifestyle products.  
+
*This system utilizes MEMS or NEMS technology based drug pumps, micro-pumps, micro-needles, micro-osmotic pumps, Nano-pumps.
* Both companies have environmentally positioned products and SC Johnson is pleased to further extend its reach with consumers who care as much about the planet as we do.
+
*It also includes sensors or communication systems to activate or control pumps.
[[Image:SCJ2.jpg|thumb|center|400px|]]
+
*Microsystems technologies are changing the Life Sciences industry. New in vitro diagnostic systems, new therapy strategies, genetic diseases treatment, targeted and intelligent drug delivery, artificial pancreas, drug discovery processes are health improvement promised to the future generations, enabled by semiconductor and MEMS technologies. The Life Sciences industry already faces critical challenges to take its way to its expected market.
 +
*The bar graph below gives details of the MEMS component for lifescience market
 +
*Micro- and nano-electromechanical systems (MEMS or NEMS)-based drug delivery devices offer opportunities to address unmet medical needs related to dosing. Such devices should be considered when conventional dosing methods perform suboptimally in terms of safety, efficacy, pain, or convenience. In addition, applications of these technologies may create totally new drug delivery paradigms. MEMS technologies may create new therapies with existing molecular entities.
  
== Some Good Practices ==
+
Some of the MEMS based drug delivery systems are listed below
* SC Johnson now sources 38% of its global electricity from renewable energy
+
* SC Johnson’s lighter-weight bottles eliminate 1,000,000 pounds of plastic annually
+
* SC Johnson have educated millions of people about preventing insect-borne diseases
+
* SC Johnson’s compensation is at about 103% versus others in their industry
+
* SC Johnson is committed to setting sustainable development goals, tracking their progress and reporting the results.
+
  
== SC Johnson Product Line ==
+
==='''Micropumps'''===
[[Image:SCJ3.jpg|thumb|center|750px|]]
+
  
== IP Activity ==
 
* Old, strong and non-stop patenting trend
 
* Total 1133 patents (excluding family members)
 
[[Image:SCJ4.jpg|thumb|center|600px|]]
 
  
== SC Johnson & Subsidiaries & Collaboration ==
+
----
[[Image:SCJ5.jpg|thumb|center|600px|]]
+
[[Image:micropump.jpg|thumb|right|280px| Micropump [http://www.ophthalmotronics.com/index-1.html Source]]]
 +
<br>
 +
*Although any kind of small pump is often referred to as micropump, a more accurate and up-to-date definition restricts this term to pumps with functional dimensions in the micrometre range. Such pumps are of special interest in microfluidic research, and have become available for industrial product integration in recent years. Their miniaturized overall size, potential cost and improved dosing accuracy compared to existing miniature pumps fuel the growing interest for this innovative kind of pump.
 +
*Micropumps can be grouped into mechanical and non-mechanical devices: Mechanical systems contain moving parts, which are usually actuation and valve membranes or flaps. The driving force can be generated by utilizing piezoelectric, electrostatic, thermo-pneumatic, pneumatic or magnetic effects. Non-mechanical pumps function with electro-hydrodynamic, electro-osmotic or ultrasonic flow generation.
 +
 
 +
 
 +
[http://en.wikipedia.org/wiki/Micropump Source]
 +
<br><br>
 +
 
 +
==='''Microneedles'''===
 +
 
 +
----
 +
[[Image:microneedle.jpg|right|Thumb|300px| Microneedles for drug delivery[http://www.scf-online.com/english/37_e/skinpenetration37_e.htm Source]]]
 +
<br>
 +
*Microneedles were first developed as a method for transdermal drug delivery . The microneedles
 +
are long enough to penetrate the stratum corneum, which often acts as the primary barrier
 +
to drug transport across the skin, but are short enough to avoid the nerves located in the dermis,
 +
potentially offering a painless method for drug delivery.
 +
*The microneedles can be divided into "In-Plane" and "Out of plane" microneedle based o fabrication methods and as "Hollow" and "Solid" Microneedles based on their physical aspects.
 +
 
 +
<br>
 +
<br>
 +
 
 +
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|align = "center"| [http://www.dolcera.com/website_prod/services/ip-patent-analytics-services Patent Analytics Services]
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|-
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|}
 +
<br>
 +
 
 +
=='''Taxonomy'''==
 +
[[Image:taxanomy2.jpg|center|thumb|700px|'''Taxonomy''']]
 +
 
 +
==Search concepts==
 +
{|border="2" cellspacing="0" cellpadding="4" width="100%"
 +
|align = "center" bgcolor = "#4F81BD" rowspan = "2"|<font color="#FFFFFF">'''S. No.'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept 1'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept 2'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept 3'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept 4'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept 5'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept 6'''</font>
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''Mems'''
 +
|align = "center" bgcolor = "#95B3D7"|'''Nems'''
 +
|align = "center" bgcolor = "#95B3D7"|'''Drug'''
 +
|align = "center" bgcolor = "#95B3D7"|'''Sensor'''
 +
|align = "center" bgcolor = "#95B3D7"|'''Communication'''
 +
|align = "center" bgcolor = "#95B3D7"|'''Delivery'''
 +
|-
 +
|align = "center" bgcolor = "#DBE5F1"|1
 +
|bgcolor = "#DBE5F1"|Microelectromechanical Systems
 +
|bgcolor = "#DBE5F1"|Nanoelectromechanical Systems
 +
|bgcolor = "#DBE5F1"|Medicament
 +
|bgcolor = "#DBE5F1"|Biosensor
 +
|bgcolor = "#DBE5F1"|Bioinformation technology
 +
|bgcolor = "#DBE5F1"|Inject<nowiki>*</nowiki>4
 +
|-
 +
|align = "center"|2
 +
|Microsystem Technology
 +
|BioNems
 +
|Pharmaceutic<nowiki>*</nowiki>2
 +
|Smartsensor
 +
|Telemetry
 +
|Perfus<nowiki>*</nowiki>3
 +
|-
 +
|align = "center" bgcolor = "#DBE5F1"|3
 +
|bgcolor = "#DBE5F1"|BioMems
 +
|bgcolor = "#DBE5F1"|Nanopump
 +
|bgcolor = "#DBE5F1"|Medic<nowiki>*</nowiki>5
 +
|bgcolor = "#DBE5F1"|Microsensor
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|Infus<nowiki>*</nowiki>3
 +
|-
 +
|align = "center"|4
 +
|Micropump
 +
|Nanopump
 +
|
 +
|
 +
|
 +
|Diffus<nowiki>*</nowiki>3
 +
|-
 +
|align = "center" bgcolor = "#DBE5F1"|5
 +
|bgcolor = "#DBE5F1"|Microneedle
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|Releas<nowiki>*</nowiki>
 +
|-
 +
|align = "center"|6
 +
|Mems Drugpump
 +
|
 +
|
 +
|
 +
|
 +
|
 +
|-
 +
|align = "center" bgcolor = "#DBE5F1"|7
 +
|bgcolor = "#DBE5F1"|Lab micro chip
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|-
 +
|align = "center"|8
 +
|Microosmotic pump
 +
|
 +
|
 +
|
 +
|
 +
|
 +
|-
 +
|align = "center" bgcolor = "#DBE5F1"|9
 +
|bgcolor = "#DBE5F1"|Lab on a chip
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|-
 +
|}
 +
 
 +
 
 +
----
 +
 
 +
==Search strategy==
 +
{|border="2" cellspacing="0" cellpadding="4" width="100%"
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''S. No.'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Search Query'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Scope'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Year'''</font>
 +
|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Hits'''</font>
 +
|-
 +
|align = "center" bgcolor = "#DBE5F1"|1
 +
|bgcolor = "#DBE5F1"|MEMS
 +
|bgcolor = "#DBE5F1"|(((Microelectromechanical) OR (Micro ADJ ((System<nowiki>*</nowiki>1 ADJ Technology) OR (Electromechanical))) OR (MEMS) OR (BioMEMS) OR (Bio ADJ2 MEMS) OR (Microtechnology) OR (Micro ADJ Electro ADJ Mechanical)) OR (Drug ADJ2 Pump) OR (Micro ADJ2 Pump<nowiki>*</nowiki>1) OR(Micro ADJ2 Needle<nowiki>*</nowiki>) OR (Micro ADJ2 Osmotic<nowiki>*</nowiki>) OR Micropump<nowiki>*</nowiki> OR Microneedle<nowiki>*</nowiki> OR Microosmotic<nowiki>*</nowiki> OR (Lab ADJ on ADJ a ADJ chip)OR (Lab ADJ2 Micro ADJ2 Chip))
 +
|bgcolor = "#DBE5F1"|Title/Abstract/Claims
 +
|bgcolor = "#DBE5F1"|1836-2009
 +
|align = "right" bgcolor = "#DBE5F1"|24396
 +
|-
 +
|align = "center"|2
 +
|NEMS
 +
|(Nanoelectromechanical OR NEMS OR (Nano ADJ Electromechanical) OR (Nano ADJ Electro ADJ Mechanical) OR BioNEMS OR (Bio ADJ2 NEMS) OR (Nano ADJ Pump<nowiki>*</nowiki>1) OR Nanopump OR (Nano ADJ2 Needle<nowiki>*</nowiki>1) OR Nanoneedle<nowiki>*</nowiki>1)
 +
|Title/Abstract/Claims
 +
|1836-2009
 +
|align = "right"|474
 +
|-
 +
|align = "center" bgcolor = "#DBE5F1"|3
 +
|bgcolor = "#DBE5F1"|Drug Delivery
 +
|bgcolor = "#DBE5F1"|(Drug OR Pharmaceutic<nowiki>*</nowiki>2 OR Medic<nowiki>*</nowiki>5) Near10 (Deliver<nowiki>*</nowiki>4 OR Inject<nowiki>*</nowiki>4 OR Perfus<nowiki>*</nowiki>3 OR Infus<nowiki>*</nowiki>3 OR Diffus<nowiki>*</nowiki>3 OR Releas<nowiki>*</nowiki>)
 +
|bgcolor = "#DBE5F1"|Full Spec
 +
|bgcolor = "#DBE5F1"|1836-2009
 +
|align = "right" bgcolor = "#DBE5F1"|336156
 +
|-
 +
|align = "center"|4
 +
|Sensor/Communication
 +
|(<nowiki>*</nowiki>sensor) OR (Sensor<nowiki>*</nowiki>1) OR Communicat<nowiki>*</nowiki>3 OR Telemetry OR (Bio ADJ2 IT) OR (Bio ADJ2 Information)
 +
|Title/Abstract/Claims
 +
|1836-2009
 +
|align = "right"|3257001
 +
|-
 +
|align = "center" bgcolor = "#DBE5F1"|5
 +
|bgcolor = "#DBE5F1"|Final Query
 +
|bgcolor = "#DBE5F1"|(1 OR 2) AND 3 AND 4
 +
|bgcolor = "#DBE5F1"|
 +
|bgcolor = "#DBE5F1"|
 +
|align = "right" bgcolor = "#DBE5F1"|1225(531 unique patents)
 +
|-
 +
|}
 +
 
 +
=='''IP Activity'''==
 +
 
 +
==='''Year wise IP activity'''===
 +
[[Image:Yearwise IP.jpg|center|thumb|500px|'''Year wise IP activity''']]
 +
 
 +
===Top Assignees===
 +
[[Image:Topassignees.jpg|center|thumb|500px|'''Top Assignees''']]
 +
 
 +
'''[[Other assignees with one record]]'''
 +
 
 +
It can be inferred from the graph that out of the '''78''' '''ON''' target patents  '''Biovalve Technologies Inc.''' is the Top Assignee in the Smart drug delivery system based on MEMS/NEMS
  
== IP Creators ==
+
==='''Patent Distribution'''===
* Top inventors of SC Johnson
+
[[Image:patent distribution.jpg|center|thumb|400px|'''Patent Distribution''']]
[[Image:SCJ6.jpg|thumb|center|600px|]]
+
[[Image:microneedlepatent.jpg|center|thumb|400px|'''Microneedle Patent category Distribution''']]
 +
----
  
 
==<span style="color:#C41E3A">Like this report?</span>==
 
==<span style="color:#C41E3A">Like this report?</span>==
Line 57: Line 241:
 
<br>
 
<br>
  
== IP Practice Market ==
+
==Analysis sheets==
[[Image:SCJ7.jpg|thumb|center|600px|]]
+
===On target records===
 +
* [[Media:ON target.xls| '''ON Target Analysis''']]
  
== Technology Coverage ==
+
===Off target records===
* SC Johnson top research areas
+
* [[Media:OFFtargetREC.xls| '''OFF-target records''']]
[[Image:SCJ8.jpg|thumb|center|600px|]]
+
==Dashboard link==
 
+
{|border="3" cellspacing="2" cellpadding="4"
=== B65D = Containers For Storage - Classification ===
+
|-
[[Image:SCJ9.jpg|thumb|center|600px|]]
+
|[http://client.dolcera.com/dashboard/dashboard.html?workfile_id=556 '''Dashboard''']
 
+
|-
== Patent Categorization ==
+
|}
[[Image:SCJ10.jpg|thumb|center|600px|]]
+
  
 
==Contact Dolcera==
 
==Contact Dolcera==

Latest revision as of 23:54, 16 June 2011

Background

Introduction

  • The smart miniature drug delivery system is for delivering the drugs to the host.Biological information is detected by biological sensors, the information is analyzed and drug delivery system is actuated to deliver the drug based on the information.
  • This system utilizes MEMS or NEMS technology based drug pumps, micro-pumps, micro-needles, micro-osmotic pumps, Nano-pumps.
  • It also includes sensors or communication systems to activate or control pumps.
  • Microsystems technologies are changing the Life Sciences industry. New in vitro diagnostic systems, new therapy strategies, genetic diseases treatment, targeted and intelligent drug delivery, artificial pancreas, drug discovery processes are health improvement promised to the future generations, enabled by semiconductor and MEMS technologies. The Life Sciences industry already faces critical challenges to take its way to its expected market.
  • The bar graph below gives details of the MEMS component for lifescience market
  • Micro- and nano-electromechanical systems (MEMS or NEMS)-based drug delivery devices offer opportunities to address unmet medical needs related to dosing. Such devices should be considered when conventional dosing methods perform suboptimally in terms of safety, efficacy, pain, or convenience. In addition, applications of these technologies may create totally new drug delivery paradigms. MEMS technologies may create new therapies with existing molecular entities.

Some of the MEMS based drug delivery systems are listed below

Micropumps

Micropump Source


  • Although any kind of small pump is often referred to as micropump, a more accurate and up-to-date definition restricts this term to pumps with functional dimensions in the micrometre range. Such pumps are of special interest in microfluidic research, and have become available for industrial product integration in recent years. Their miniaturized overall size, potential cost and improved dosing accuracy compared to existing miniature pumps fuel the growing interest for this innovative kind of pump.
  • Micropumps can be grouped into mechanical and non-mechanical devices: Mechanical systems contain moving parts, which are usually actuation and valve membranes or flaps. The driving force can be generated by utilizing piezoelectric, electrostatic, thermo-pneumatic, pneumatic or magnetic effects. Non-mechanical pumps function with electro-hydrodynamic, electro-osmotic or ultrasonic flow generation.


Source

Microneedles

Microneedles for drug deliverySource


  • Microneedles were first developed as a method for transdermal drug delivery . The microneedles

are long enough to penetrate the stratum corneum, which often acts as the primary barrier to drug transport across the skin, but are short enough to avoid the nerves located in the dermis, potentially offering a painless method for drug delivery.

  • The microneedles can be divided into "In-Plane" and "Out of plane" microneedle based o fabrication methods and as "Hollow" and "Solid" Microneedles based on their physical aspects.



Like this report?

This is only a sample report with brief analysis
Dolcera can provide a comprehensive report customized to your needs

Buy the customized report from Dolcera
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Patent Search Services Patent Alerting Services Dolcera Tools


Taxonomy

Taxonomy

Search concepts

S. No. Concept 1 Concept 2 Concept 3 Concept 4 Concept 5 Concept 6
Mems Nems Drug Sensor Communication Delivery
1 Microelectromechanical Systems Nanoelectromechanical Systems Medicament Biosensor Bioinformation technology Inject*4
2 Microsystem Technology BioNems Pharmaceutic*2 Smartsensor Telemetry Perfus*3
3 BioMems Nanopump Medic*5 Microsensor Infus*3
4 Micropump Nanopump Diffus*3
5 Microneedle Releas*
6 Mems Drugpump
7 Lab micro chip
8 Microosmotic pump
9 Lab on a chip


Search strategy

S. No. Concept Search Query Scope Year Hits
1 MEMS (((Microelectromechanical) OR (Micro ADJ ((System*1 ADJ Technology) OR (Electromechanical))) OR (MEMS) OR (BioMEMS) OR (Bio ADJ2 MEMS) OR (Microtechnology) OR (Micro ADJ Electro ADJ Mechanical)) OR (Drug ADJ2 Pump) OR (Micro ADJ2 Pump*1) OR(Micro ADJ2 Needle*) OR (Micro ADJ2 Osmotic*) OR Micropump* OR Microneedle* OR Microosmotic* OR (Lab ADJ on ADJ a ADJ chip)OR (Lab ADJ2 Micro ADJ2 Chip)) Title/Abstract/Claims 1836-2009 24396
2 NEMS (Nanoelectromechanical OR NEMS OR (Nano ADJ Electromechanical) OR (Nano ADJ Electro ADJ Mechanical) OR BioNEMS OR (Bio ADJ2 NEMS) OR (Nano ADJ Pump*1) OR Nanopump OR (Nano ADJ2 Needle*1) OR Nanoneedle*1) Title/Abstract/Claims 1836-2009 474
3 Drug Delivery (Drug OR Pharmaceutic*2 OR Medic*5) Near10 (Deliver*4 OR Inject*4 OR Perfus*3 OR Infus*3 OR Diffus*3 OR Releas*) Full Spec 1836-2009 336156
4 Sensor/Communication (*sensor) OR (Sensor*1) OR Communicat*3 OR Telemetry OR (Bio ADJ2 IT) OR (Bio ADJ2 Information) Title/Abstract/Claims 1836-2009 3257001
5 Final Query (1 OR 2) AND 3 AND 4 1225(531 unique patents)

IP Activity

Year wise IP activity

Year wise IP activity

Top Assignees

Top Assignees

Other assignees with one record

It can be inferred from the graph that out of the 78 ON target patents Biovalve Technologies Inc. is the Top Assignee in the Smart drug delivery system based on MEMS/NEMS

Patent Distribution

Patent Distribution
Microneedle Patent category Distribution

Like this report?

This is only a sample report with brief analysis
Dolcera can provide a comprehensive report customized to your needs

Buy the customized report from Dolcera
Patent Analytics Services Market Research Services Purchase Patent Dashboard
Patent Landscape Services Dolcera Processes Industry Focus
Patent Search Services Patent Alerting Services Dolcera Tools


Analysis sheets

On target records

Off target records

Dashboard link

Dashboard

Contact Dolcera

Samir Raiyani
Email: info@dolcera.com
Phone: +1-650-269-7952
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