=== Ureteral Stent: Concept ===

An antimicrobial ureteral stent, which inhibits encrustation and bacterial colonization while maintaining patient comfort.

* Ureteral stent: resists migration, resists fragmentation, is kink resistant and radiopaque.

* Patient Comfort: stent has a low coefficient of fiiction (value) for ease of insertion and will soften on implant at body temperature to maintain patient comfort.

Ureteral stents are used in urological surgery to maintain patency of the ureter to allow urine drainage from the renal pelvis to the bladder. These devices can be placed by a number of different endourological techniques. They are typically inserted through a cystoscope and may also be inserted intraoperatively. Indwelling ureteral stents help to reduce complications and morbidity subsequent to urological and surgical procedures. Frequently, ureteral stents are used to facilitate drainage in

conjunction with Extracorporeal Shock Wave Lithotripsy (ESWL) and after endoscopic procedures. They are also used to internally support anastomoses and prevent urine leakage after surgery. Ureteral stenting may almost eliminate the urological complications of renal transplantation.  

The advent of ESWL and the more recent barrage of endourological techniques have increased the indications for ureteral stents (Candela and Bellman 1997). Indications for use include:

The need for ureteral stents range from a few days to several months. For patients with serious urological problems, ureteral stent maintenance may become a life-long necessity. Unfortunately, there are many problems associated with using ureteral stents.

[[Image:Ureteral stent.jpg|thumb|right|350px|Double-J and Pigtail ureteral stents]]

|align = "center" bgcolor = "#00CCFF"|<font color="#993366">'''Rare'''</font>

Today, elastomeric materials, such as silicones, polyurethanes and hydrogel-coated polyolefins are used, with no clear winner, which can withstand the urinary environment.  

* Although silicone has better long-term stability than other stent materials, its extreme flexibility makes it difficult to pass over guidewires and through narrow or tortuous ureters.

* Polyethylene is stiffer and easier to use for patients with strictures; however, it has been known to become brittle with time leading to breakage and is no longer commercially available. * Polyurethane has properties that fall in between polyethylene and silicone; however, stent fracture also has been an issue with polyurethanes.

Attempts have been made to develop polymers with a combination of the best of all properties. The key players are C-Flex (Concept Polymer Technologies), Silitek and Percuflex (Boston Scientific).

* Percuflex is a proprietary olefinic block copolymer.  

Metallic stents have been used recently to treat extrinsic ureteric obstructions. The effect of synthetic polymers on the urothelium of the urinary tract seems to be dependent on the bulk chemical composition of the polymer, the chemical composition of its surface, coatings on the device

surface, smoothness of the surface and coefficient of friction.

Typically, most ureteral stents are made of relatively smooth catheters. [http://www.ncbi.nlm.nih.gov/pubmed/10772512 Koleski et al., (2000)] tested a longitudinally grooved ureteral stent made by Circon in the pig ureter. The results indicated that the grooved stent led to better drainage than a conventional stent. Their opinion is that the ureter wall has a better chance of collapsing over a

Typically, manufacturers advise periodic stent evaluation. Cook polyurethane stent removal is recommend at 6 months and 12 months for silicone (Cook product literature). However, stents that are intended for long-term use are usually changed at regular intervals, as frequently as every 3 months.

Many different types of stone can form in the urinary tract. Calcium oxalate, calcium phosphate, uric acid and cystine stones are metabolic stones because they form as a result of metabolic dysfunction. They usually are excreted from the urinary tract. Struvite (magnesium ammonium phosphate) and hydroxyapatite (calcium phosphate) are associated with infection (infection stones). These account for 1520% of urinary calculi. ESWL is used to break up the larger infection stones because they don't pass; recurrence of the problem occurs with incomplete removal. Infection stones can manifest as poorly mineralized matrix stones, highly mineralized staghorn calculi or as bladder stones which often form in the presence of ureteral stents. Urea-splitting bacteria colonize the surface and cause alkalinization of the urine, which lowers the solubility of struvite and hydroxyapatite, and they deposit on the surface. Bacterial biofilm associated with encrustation is a common clinical occurrence. (Gorman and Tunney, 1997). It has been suggested that prevention of bacterial colonization would prevent encrustation because of their ultimate responsibility for its formation (Bibby et al., 1995).

 

 

 

 

 

 

 

 

 

* Results: '''177 patents (82 unique patent families)'''

 

{| class="wikitable" style="font-size:90%" border="1" cellpadding="5" cellspacing="0"  

|- style="background:lightgrey"

!align = "center" bgcolor = "#00CCFF"|Patent

!bgcolor = "#00CCFF"|Assignee

![http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2Fsrchnum.htm&r=1&f=G&l=50&s1=6468649.PN.&OS=PN/6468649&RS=PN/6468649 US6468649 B1]

| SCIMED LIFE SYSTEMS INC

| The present invention provides an implantable medical device having a substrate with a hydrophilic coating composition to limit in vivo colonization of bacteria and fungi. The hydrophilic coating composition includes a hydrophilic polymer with a molecular weight in the range from about 100, 000 to about 15 million selected from copolymers acrylic acid, methacrylic acid, isocrotonic acid and combinations thereof.

|-

![http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2Fsrchnum.htm&r=1&f=G&l=50&s1=5554147.PN.&OS=PN/5554147&RS=PN/5554147 US5554147 A]

| CApHCO, Inc.

| Compositions and devices for controlled release of active ingredients

| A method for the controlled release of a biologically active agent wherein the agent is released from a hydrophobic, pH-sensitive polymer matrix is disclosed and claimed. The polymer matrix swells when the environment reaches pH 8.5, releasing the active agent. A polymer of hydrophobic and weakly acidic comonomers is disclosed for use in the controlled release system. Further disclosed is a specific embodiment in which the controlled release system may be used. The pH-sensitive polymer is coated onto a latex catheter used in ureteral catheterization. A common problem with catheterized patients is the infection of the urinary tract with urease-producing bacteria. In addition to the irritation caused by the presence of the bacteria, urease produced by these bacteria degrade urea in the urine, forming carbon dioxide and ammonia. The ammonia causes an increase in the pH of the urine. Minerals in the urine begin to precipitate at this high pH, forming encrustations which complicate the functioning of the catheter. A ureteral catheter coated with a pH-sensitive polymer having an antibiotic or urease inhibitor trapped within its matrix will release the active agent when exposed to the high pH urine as the polymer gel swells. Such release can be made slow enough so that the drug remains at significant levels for a clinically useful period of time.

![http://appft1.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220030153983%22.PGNR.&OS=DN/20030153983&RS=DN/20030153983 US20030153983 A1]

==Urinary Problems in men and women==

==Market Analysis==

* Prevalence increased with age, from 28% for 30- to 39-year-old women to 55% for 80- to 90-year-old women.

* The prevalence of severe UI also increased notably with age, from 8% for 30- to 39-year-old women to 33% for 80- to 90-year-old women.

* Among all, 9% reported slight UI, 15% reported moderate UI, 18% reported severe UI, and 58% reported no UI.

<BR>

===Methodology===

[[Image:methodology-ureteral stents.jpg|center|650px]]

 

===Prevalence rate in US (women)===

{|border="2" cellspacing="0" cellpadding="4" width="100%"

|align = "center" bgcolor = "#4F81BD" colspan = "2"|<font color="#FFFFFF">'''Prevalence of Urinary Incontinence in US (women)'''</font>

|align = "center" bgcolor = "#D3DFEE"|Age (in yrs)

|align = "center" bgcolor = "#D3DFEE"|Population with Urinary incontinence (in %)

|align = "center"|30-39

|align = "center"|28%

|align = "center" bgcolor = "#D3DFEE"|40-49

|align = "center" bgcolor = "#D3DFEE"|41%

|align = "center"|50-59

|align = "center"|48%

|align = "center" bgcolor = "#D3DFEE"|60-69

|align = "center" bgcolor = "#D3DFEE"|51%

|align = "center"|70-79

|align = "center"|55%

|align = "center" bgcolor = "#D3DFEE"|80-90

|align = "center" bgcolor = "#D3DFEE"|54%

[[Image:urinary incontinence severity.jpg|center|500px|thumb|[http://archinte.ama-assn.org/cgi/content/full/165/5/537 Source: Archives of internal medicine]]]

===Market potential for ureteral stent in US (women)===

{|border="2" cellspacing="0" cellpadding="4" width="100%"

|align = "center" bgcolor = "#4F81BD" colspan = "6"|<font color="#FFFFFF">'''Market potential for ureteral stents in US women, 2009'''</font>

|bgcolor = "#D3DFEE"|1. Age groups<br>

|bgcolor = "#D3DFEE"|2. Female population<br>(from US census data)

|bgcolor = "#D3DFEE"|3. Prevalence rate in female (%)

|align = "center" bgcolor = "#D3DFEE"|4. Market potential<br>(total prevalence)<br>(2<nowiki>*</nowiki>3)

|bgcolor = "#D3DFEE"|5. Catherization rate (%)<br>

|align = "center" bgcolor = "#D3DFEE"|6. Stent market based on catherization rate<br>(4<nowiki>*</nowiki>5)

|30-39

|20128402

|28%

|5635953

|0.043%

|2423

|bgcolor = "#D3DFEE"|40-49

|bgcolor = "#D3DFEE"|22074384

|bgcolor = "#D3DFEE"|41%

|bgcolor = "#D3DFEE"|9050497

|bgcolor = "#D3DFEE"|0.123%

|bgcolor = "#D3DFEE"|11132

|50-59

|20929761

|48%

|10046285

|0.124%

|12457

|bgcolor = "#D3DFEE"|60-69

|bgcolor = "#D3DFEE"|0.160%

|bgcolor = "#D3DFEE"|11918

|0.172%

|8558

|bgcolor = "#D3DFEE"|≥ 80

|bgcolor = "#D3DFEE"|0.044%

|bgcolor = "#D3DFEE"|1715

* Prevalence rate in US women is growing at a CAGR of 1.19%

* Ureteral stent market is growing at a CAGR of 1.47%

===Ureteral stent market forecast in US (women)===

[[Image:stent market forecast1.jpg|center|600px]]

[[Media:Detailed calculation workbook.xls|'''Detailed model workbook''']]

===Ureteral stent companies===

Various companies offering ureteral stents are:

* [http://www.cookmedical.com/uro/familyListingAction.do?family=Ureteral+Stents Cook Group]

* [http://www.appliedmed.com/products/product_card.aspx?prodGroupID=6&catID=37&Name=Ureteral+stents Applied Medicals]

* [http://www.redi-tech.com/products/?get=pricing&loc=main&content=0&type=pricing&items=0&item=13 Redi-Tech Medical Products]

====Ureteral stents of various companies====

=====Boston Scientific=====

* Contour VL Variable Length Percuflex Stents<BR>

| align = "center"| [http://www.dolcera.com/website_prod/services/ip-patent-analytics-services Patent Analytics Services]

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|}

<br>

=== Clinical Trials ===

{| {{table}}

| align="center"|'''Title'''

| align="center"|'''Conditions'''

| align="center"|'''Intervention'''

| align="center"|'''Sponsors and Collaborators'''

| [http://clinicaltrials.gov/ct2/show/NCT00250406?term=ureteral+stent&rank=1 Assessment of Drug-Eluting Ureteral Stent on Bacterial Adherence and Biofilm Formation]||Renal Calculi, Ureteral Obstruction||Device: Ureteral Stent||Lawson Health Research Institute, Boston Scientific Corporation

| [http://clinicaltrials.gov/ct2/show/NCT00270504?term=urethral+stent&rank=1 Memokath® 044TW Stent for Treatment of Urethral Stricture]||Urethral Stricture||Device: Memokath stenting||Engineers & Doctors Wallsten Medical Group

| [http://clinicaltrials.gov/ct2/show/NCT00581178?term=urologic+stent&rank=3 Study to Determine if There Are Specific Clinical Factors to Determine Stent Encrustation]||Kidney Stones||N\A||University of California, Irvine

| [http://clinicaltrials.gov/ct2/show/NCT00288457?term=urologic+stent&rank=14 Ureteral Stent Length and Patient Symptoms]||Kidney Stones||Device: Ureteral Stent||Emory University

| [http://clinicaltrials.gov/ct2/show/NCT00166361?term=urologic+stent&rank=1 Drainage of Malignant Extrinsic Ureteral Obstruction Using the Memokath Ureteral Stent]||Ureteral Obstruction||Device: Memokath 051 Ureteral Stent||Mayo Clinic Engineers & Doctors Wallsten Medical Group

| [http://clinicaltrials.gov/ct2/show/NCT00739284?term=urologic+stent&rank=15 A Prospective Comparison Between Ureteral Stent and Nephrostomy Tube for an Urgent Drainage of Obstructed Kidney (JJVsPCN08)]||Kidney Disease||Device: nephrostomy tube and ureteral stent||Rabin Medical Center

|}

==== Concluded trials ====

{| {{table}}

| align="center" |'''Title'''

| align="center" |'''Abstract'''

| align="center" |'''Enrollment'''

| align="center" |'''Disorder'''

| align="center" |'''Conclusion'''

| Long-term outcome of permanent urethral stents in the treatment of detrusor-sphincter dyssynergia ||To evaluate the long-term efficacy of a permanently implanted urethral stent in the treatment of spinally injured patients with detrusor-sphincter dyssynergia.||13||Detrusor-sphincter dyssynergia||Stenting is an effective alternative to sphincterotomy in the long-term, although secondary bladder neck obstruction is a frequent problem.

| Nephrostomy Tube or 'JJ' Ureteric Stent in Ureteric Obstruction: Assessment of Patient Perspectives Using Quality-of-Life Survey and Utility Analysis||Upper urinary tract obstruction is often relieved by either a percutaneous nephrostomy tube (PCN) or a ureteric stent. Both can cause considerable morbidity and reduce patient's health-related quality of life (QoL). We have compared the QoL in these 2 groups.||34||Upper urinary tract obstruction||Patients with 'JJ' stents have significantly more irritative urinary symptoms and a high chance of local discomfort than patients with nephrostomy tubes (PCN). However, based on the EuroQol analysis, there is no significant difference in the gross impact on the health-related QoL or the utility between these groups indicating no patient preference for either modality of treatment.

| Impact of stents on urological complications and health care expenditure in renal transplant recipients: results of a prospective, randomized clinical trial.||A randomized, prospective trial to compare the incidence of early urological complications and health care expenditures in renal transplant recipients with or without ureteral stenting.||201||Renal transplant recipient||Using a ureteral stent at renal transplantation significantly decreases the early urinary complications of urine leakage and obstruction. However, there is a significant increase in urinary tract infections, primarily beyond 30 days after transplantation. Stent removal within 4 weeks of insertion appears advisable.

====Adverse Events====

{|border="2" cellspacing="0" cellpadding="4" width="100%"

|align = "center" bgcolor = "#00CCFF"|'''S. No.'''

|align = "center" bgcolor = "#00CCFF"|'''Brand Name'''

|align = "center" bgcolor = "#00CCFF"|'''Adverse Event'''

|align = "center" bgcolor = "#00CCFF"|'''Date FDA Received'''

|align = "center" bgcolor = "#00CCFF"|'''1'''

|align = "justify"|<font color="#0000FF"><u>[http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfMAUDE/Detail.cfm?MDRFOI__ID=660847 Cook Urologicals Cook Urological Stent]</u></font>

|align = "justify"|Stent broke into  pieces while removing it from the patients body.

|align = "center"|12/14/2005

|align = "center" bgcolor = "#00CCFF"|'''2'''

|align = "justify"|<font color="#0000FF"><u>[http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfMAUDE/Detail.CFM?MDRFOI__ID=930422 Boston Scoientific Boston Scientific Ureteral stent System]</u></font>

|align = "justify"|Fractured stent seen under Fluroscopy

|align = "center"|10/17/2007

|align = "center" bgcolor = "#00CCFF"|'''3'''

|align = "justify"|<font color="#0000FF"><u>[http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfMAUDE/Detail.CFM?MDRFOI__ID=755260 Boston Scoientific Boston Scientific Ureteral Stent System Kit 8 FR X 24 CM]</u></font>

|align = "justify"|During insertion of ureteral stent, the stent broke into multiple parts which were retained in the patient.

|align = "center"|10/14/2005

|align = "center" bgcolor = "#00CCFF"|'''4'''

|align = "justify"|<font color="#0000FF"><u>[http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfMAUDE/Detail.CFM?MDRFOI__ID=564910 Boston Scientific Corp  Boston Scientific 8 FR X 28 CM Ureteral Stent System Kit]</u></font>

|align = "justify"|Breakage of the upper loop of the ureteral stent while trying to insert it.

|align = "center"|1/5/2005

|align = "center" bgcolor = "#00CCFF"|'''5'''

|align = "justify"|<font color="#0000FF"><u>[http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfMAUDE/Detail.CFM?MDRFOI__ID=522129 Boston Scientific Bostoon Scientific Micro Vasive Contour VL Ureteral Stent]</u></font>

|align = "justify"|Broken stent observed during x-ray procedure.

|align = "center"|12/12/2003

|}

[[Media: non patent upload.xls|'''Review Articles''']]<br>

[[Media: non patent upload1.xls|'''Non Patent Analysis''']]

 

=== Products ===

{| {{table}}

| align="center"|'''Boston Scientific Scimed, Inc.'''

| align="center"|'''Cook Urological Incorporated'''

| align="center"|'''OptiMed Global Care'''

| Polaris™ Ultra Ureteral Stent

| Firlit-Kluge Urethral Stent

| Opti-J Ureteral Stent System 

| Polaris™ Loop Ureteral Stent

| Koyle Diaper Stent

| Ureteral Stent Sets, ureterorenoscope 

| Stretch™ VL Variable Length Flexima® Stents

| Silicone Universal Drainage Stent

| Extra Strong Stent Sets (-Tumor)

|

| Tarkington Urethral Stent Set

| Steerable Ureteral Stent Sets

|

| Zaontz Urethral Stent

| Multilength 

|

| Pediatric Urethral C-Stent

|

|}

 

=== Startup activity ===

* [http://twincities.bizjournals.com/twincities/stories/2008/07/28/story8.html AbbeyMoor Medical Inc.], a med-tech firm that’s developed devices for treating urological disorders, has raised $2.7 million in bridge financing.

 

== Phase 2: Deeper Dive ==

 

[[Image:DealImplications.jpg|thumb|center|700px|Deal implications]]

 

{| class="wikitable" style="font-size:90%" border="1" cellpadding="5" cellspacing="0"

|- style="background:lightgrey"

!align = "center" bgcolor = "#00CCFF" width="15%"|Review

!bgcolor = "#00CCFF" width="30%"|Verification

!bgcolor = "#00CCFF" width="40%"|Tasks

!bgcolor = "#00CCFF" width="15%"|Expertise

!rowspan="2"|Design Input

| Design input documents for sufficiency

|  

# Access electronic data room.

# Check what documents are provided.

# Compare document list with standard client document list.

# Check whether each specified document has appropriate content.

| rowspan="2"|Quality systems

| Design input documents linked to the product performance specifications

|

# Compare product specifications to design inputs

# Check whether appropriate verifications and validations are performed

!rowspan="3"|Product Performance Specifications (PPS)

| Design inputs correlate adequately to the specifications; DV&V (design verification and validation) criteria are based on risk management documentation or if the criteria are based on sound statistical sampling plans

|  

| rowspan="3"|Quality systems, CAD

| Appropriate design verification and validations (DV&V) are performed

|  

| Product performance specifications correspond to appropriate design output documents

|  

# Correlate design drawings with the specifications

# Check whether maximum dimensions, sizes etc. (with tolerances) are within the specified range

!rowspan="4"|Risk Management Documents

| Risk Analysis, Design Failure Modes and Effects Analysis (DFMEA), Process FMEA, other risk management documentation

|rowspan="4"| Quality systems

| DFMEA links appropriately to the PPS

|  

# Verify whether DFMEA and product specifications are correlated

| Appropriate DV&V reports and design output documents are referenced correctly as risk mitigation activities in the DFMEA

|  

# Validate the process and correlate with design inputs

| PFMEA links appropriately to the process validation protocol acceptance criteria; In-process inspection procedures and/or manufacturing procedures are recorded as appropriate risk mitigation activities in the PFMEA

|  

!rowspan="2"|Design Output Documents

| Completeness of drawings

|

# Check if the CAD diagrams overlay and "fit" perfectly

|rowspan="2"| Quality systems, CAD

| Correlate First Article Inspection data to the dimensions on the drawings

|  

# Check if this data correlates with the completeness of drawings

!rowspan="4"|Manufacturing Documents

| Manufacturing procedures, component specifications, raw material specifications, incoming and in-process inspection procedures for completeness

|  

# Verify the Bill of Materials corresponds to raw materials and manufacturing procedures

| rowspan="4"|Material science, manufacturing engineering, quality systems

| Linkage between component and raw material specifications and appropriate incoming inspection procedures

|  

| Inspection procedures have adequate sampling plans based on PFMEA risk mitigation levels – this includes packaging and labeling materials

|  

# Review supplier audit reports for compliance

| Calibration records and preventive maintenance records; in-process / incoming inspection test methods and related test method validations

|-

!rowspan="2"|Validation Report

=== Sample report ===

{| class="wikitable" style="font-size:90%" border="1" cellpadding="5" cellspacing="0"

|- style="background:lightgrey"

!align = "center" bgcolor = "#00CCFF" width="5%" rowspan="2"|Design Output

!align = "center" bgcolor = "#00CCFF" width="5%" rowspan="2"|Status (P/F/R)

!align = "center" bgcolor = "#00CCFF" width="5%" rowspan="2"|Status (P/F/R)

|-

!align = "center" bgcolor = "#00CCFF" width="20%"|User Needs

!align = "center" bgcolor = "#00CCFF" width="15%"|User Need Rationale

!align = "center" bgcolor = "#00CCFF" width="20%"|Engineering Specification

!align = "center" bgcolor = "#00CCFF" width="20%"|Engineering Specification Rationale

|-

|Provide antimicrobial resistance for up to 2 weeks

|Ureteral Stent User Survey (Document #XXXXX)

|Stent must have chlorohexadine surface concentration of 10-20 mg/cm2 for 3 weeks

|Document #XXXXX

|Test Document #XXXXX

|Report 01-005-06-007

|P

|Report 01-005-06-007

|P

=== Potential DHF Review Outcomes ===

# Creation of some new test methods for design, incoming and in-process inspections and also include recommendations for the test method validations. Creation of any new DV&V data would be highly unlikely as it could potentially trigger a new submission or a note-to-file to the regulatory agencies.

== Phase 3: Post-acquisition integration ==

'''Goal''': Switch production transparently to new facilities transparently to the distribution system

{| class="wikitable" style="font-size:90%" border="1" cellpadding="5" cellspacing="0"  

|- style="background:lightgrey"

!align = "center" bgcolor = "#00CCFF" |Stage

!align = "center" bgcolor = "#00CCFF" |Tasks

!align = "center" bgcolor = "#00CCFF" |Milestone payment

!align = "center" bgcolor = "#00CCFF" |Date

|Design center integration plan

|

|

|September 15, 2008

|Design to manufacturing transfer

|

|

|Equipment transfer

|

|Milestone I payment

|Shut production at acquiree facility

|Negotiation for contract extension

|Milestone II payment

|Start production in acquirer facility