Important Information
This Summary of Safety and Clinical Performance (SSCP) is intended
to provide public access to an updated summary of the main aspects
of the safety and clinical performance of the device. This SSCP is
not intended to replace the Instructions for Use as the main
document to ensure the safe use of the device, nor is it intended
to provide diagnostic or therapeutic suggestions to intended users
or patients.
Applicable Documents
| Document Type |
Document Title / Number |
| Design History File (DHF) |
04002A |
| ‘MDR Documentation’ File Number |
TD-022 |
1. Device Identification and General Information
Device Trade Name(s): Medcomp® and Jet Femoral
Catheter
Manufacturer Name and Address: Medical
Components, Inc. 1499 Delp Drive Harleysville, PA 19438 USA
Manufacturer Single Registration Number (SRN):
US-MF-000008230
Basic UDI-DI: 00884908296NS
Medical Device Nomenclature: F900201 – Temporary
Hemodialysis Catheters and Kits
Class of Device: III
Date First CE Certificate Issued: Nov-97
Authorized Representative Name and SRN: Gerhard
Frömel European Regulatory Expert Medical Product Service GmbH
(MPS) Borngasse 20 35619 Braunfels, Germany SRN: DE-AR-000005009
Notified Body Name and Single Identification Number:
BSI Netherlands NB2797
Device Grouping and Variants
The devices in scope of this document are all short-term
hemodialysis catheter sets. The device part numbers are organized
into variant categories. These devices are distributed as
procedure trays, in various configurations inclusive of
accessories and adjunctive devices (see section “Accessories
intended for use in combination with the Device”).
Variant Devices:
Variant Devices:
| Variant Description |
Part Number(s) |
Explanation of Multiple Part Numbers |
| 6.5F x 13.3cm Straight Femoral |
10263-053 |
|
| 7F x 25cm Straight Femoral |
10264-100S |
|
| 8.5F x 15cm Straight Femoral |
6314 |
|
| 8.5F x 25cm Straight Femoral |
10265-100 |
|
| 9F x 14cm Straight Femoral |
10266-055 |
|
Variant Devices:
| Variant Description |
Part Number(s) |
Explanation of Multiple Part Numbers |
Procedure Trays:
Procedure Trays:
| Catalog Code |
Part Number |
Description |
| JMFK100 |
10265-100 |
8.5F x 25cm Jet Femoral Single Lumen Hemodialysis Catheter
Basic Set
|
| JMFK550 |
10266-055 |
9F x 14cm Jet Femoral Single Lumen Hemodialysis Catheter
Basic Set
|
| JMFK60 |
6314 |
8.5F x 15cm Jet Femoral Single Lumen Hemodialysis Catheter
W/ "Y" Hub Basic Set
|
| JMFK64 |
10263-053 |
6.5F x 13cm Jet Femoral Single Lumen Hemodialysis Catheter
Basic Set
|
| MCFK60 |
6314 |
8.5F x 15cm Medcomp Femoral Single Lumen Hemodialysis
Catheter W/ "Y" Hub Basic Set
|
| MCF64E |
10263-053 |
6.5F x 13cm Medcomp Femoral Single Lumen Hemodialysis
Catheter Basic Set
|
| MCFK100 |
10265-100 |
8.5F x 25cm Medcomp Femoral Single Lumen Hemodialysis
Catheter Basic Set
|
| MCFK100PS |
10264-100S |
8F x 25cm Medcomp Femoral Single Lumen Hemodialysis Catheter
W/ Stylet Basic Set
|
| NISL14K |
10266-055 |
9F x 14cm Nipro Femoral Single Lumen Hemodialysis Catheter
Basic Set
|
| NISL25K |
10265-100 |
8.5F x 25cm Nipro Femoral Single Lumen Hemodialysis Catheter
Basic Set
|
Procedure Trays:
| Catalog Code |
Part Number |
Description |
Configurations of Procedure Trays:
| Configuration Type |
Kit Components |
|
Medcomp® / Jet / Nipro Basic Set Contents
|
(1) Catheter (1) Guidewire (1) Guidewire Advancer (1) Needle
(1) Scalpel (1) End Cap
|
| MCFK100PS Set Contents |
(1) Catheter (1) Stylet (1) Guidewire (1) Guidewire Advancer
(1) Needle (1) Scalpel (1) End Cap
|
2. Intended Use of the Device
Intended Purpose: The Femoral Single Lumen
Catheters are intended for use in adult patients with Acute Kidney
Injury (AKI) or Chronic Kidney Disease (CKD) for whom immediate
central venous vascular access for short-term hemodialysis is
deemed necessary based on the direction of a qualified, licensed
physician. The catheter is intended to be used under the regular
review and assessment of qualified health professionals. This
catheter is for Single Use Only.
Indication(s): The Femoral Single Lumen Catheter
is indicated for short-term use where vascular access is required
for less than 14 days for the purpose of hemodialysis.
Target Population(s): The Femoral Single Lumen
Catheter are intended for use in adult patients with Acute Kidney
Injury (AKI) or Chronic Kidney Disease (CKD) for whom immediate
central venous vascular access for short-term hemodialysis is
deemed necessary based on the direction of a qualified, licensed
physician. The catheter is not intended for use in pediatric
patients.
Contraindications and/or Limitations:
-
Known or suspected allergies to any of the components of the
catheter or the kit.
-
This device is contraindicated for patients exhibiting severe,
uncontrolled coagulopathy or thrombocytopenia.
3. Device Description
Device Name: Medcomp® Femoral Single Lumen
Catheters
Description of Device: Medcomp® Femoral Single
Lumen Catheters:The Medcomp® Femoral Single Lumen Catheter
provides one dedicated access lumen. The catheter lumen is
composed of a polyurethane material. This lumen is connected
through an extension line with a female luer connector. In the
case of the “Y” hub, two extensions are used to access this single
lumen. The transition between lumen and extension is housed within
a molded hub. The catheter incorporates Barium Sulphate to
facilitate visualization under fluoroscopy or Xray. The catheter
is available in a variety of French sizes and lengths to
accommodate physician preference and clinical needs.
Device Name: Jet Femoral Single Lumen Catheters
Description of Device: Jet Femoral Single Lumen
Catheters:The Jet Femoral Single Lumen Catheter provides one
dedicated access lumen. The catheter lumen is composed of a
polyurethane material. This lumen is connected through an
extension line with a female luer connector. In the case of the
“Y” hub, two extensions are used to access this single lumen. The
transition between lumen and extension is housed within a molded
hub. The catheter incorporates Barium Sulphate to facilitate
visualization under fluoroscopy or Xray. The catheter is available
in a variety of French sizes and lengths to accommodate physician
preference and clinical needs. The Nipro Femoral Single Lumen
Catheter provides one dedicated access lumen. The catheter lumen
is composed of a polyurethane material. This lumen is connected
through an extension line with a female luer connector. The
transition between lumen and extension is housed within a molded
hub. The catheter incorporates Barium Sulphate to facilitate
visualization under fluoroscopy or Xray. The catheter is available
in a variety of French sizes and lengths to accommodate physician
preference and clinical needs.
Materials / Substances in Contact with Patient Tissue:
The percentage ranges in the table below are based on the weights
of the 6.5F x 13.3cm catheter (4.49g) and the 8.5F x 15cm catheter
with "Y" hub (8.30g).
| Material |
% Weight (w/w) |
| Polyurethane |
18.52 - 49.84 |
| Acetal co-polymer |
22.15 - 28.88 |
| Polyvinyl chloride |
18.40 - 42.78 |
| Acrylonitrile Butadiene Styrene |
6.79 - 8.85 |
| Barium sulfate |
0.94 - 2.82 |
Information on Medicinal Substances in the Device:
How the Device Achieves its Intended Mode of Action:
Hemodialysis catheters are centrally placed access tubes. A
typical hemodialysis catheter uses a thin, flexible tube. This
catheter may use two separate tubes. The tube goes into a large
vein. The vein is usually the internal jugular vein. Blood
withdraws through one tube of the catheter. The blood flows to the
dialysis machine through a separate tubing set. The blood is then
processed and filtered. The blood may return to the patient
through a second tube. This device is used when dialysis must
start at once. Patients may not have a functioning AV fistula or
graft. Catheter hemodialysis normally happens on a short-term
basis.
Sterilization Information: Contents sterile and
non-pyrogenic in unopened, undamaged package. Sterilized by
Ethylene Oxide.
Previous Generations / Variants:
| Name of Previous Generation |
Differences from Current Device |
| N/A |
N/A |
Accessories Intended for Use in Combination with the
Device:
| Name of Accessory |
Description of Accessory |
| Guidewire |
For general intravascular use to facilitate the selective
placement of medical devices in the vessel anatomy.
|
| Guidewire Advancer |
Aid for introduction of guidewire into target vein.
|
| Introducer Needle |
Used for the percutaneous introduction of guidewires.
|
| Scalpel |
A cutting device during surgical, pathology and minor
medical procedures
|
| End Cap |
To keep clean and protect catheter luer between treatments.
|
Other Devices or Products Intended for Use in Combination with
the Device:
| Name of Device or Product |
Description of Device or Product |
| Syringe |
Attached to introducer needle to help capture blood return
once introducer needle perforates targeted vein, prevent air
embolism
|
4. Risks and Warnings
Residual Risks and Undesirable Effects: All
surgical procedures carry risk. Medcomp® has implemented risk
management processes to proactively find and mitigate these risks
as far as possible without adversely affecting the benefit-risk
profile of the device. After mitigation, residual risks and the
possibility of adverse events from use of this product remain.
Medcomp® has determined that all residual risks are acceptable
when considered with respect to the expected clinical benefits of
the Femoral Catheter and the benefits of other similar
hemodialysis devices.
| Residual Harm Type |
Possible Adverse Events Associated with Harm
|
| Allergic Reaction |
Allergic Reaction
|
| Bleeding |
Bleeding (May be severe)
|
| Cardiac Event |
Cardiac Arrhythmia
|
| Embolism |
Air Embolus
|
| Infection |
Bacteremia
|
| Perforation |
Inferior Vena Cava Puncture
|
| Stenosis |
Venous Stenosis
|
| Tissue Injury |
Brachial Plexus Injury
|
| Thrombosis |
Central Venous Thrombosis
|
| Miscellaneous Complications |
Catheter Dysfunction
|
|
Quantification of Residual Risks
|
|
PMS Complaints 01 January 2018 – 31 December 2023
|
PMCF Events |
|
Units Sold: 92,013 |
Units Studied: 0 |
|
Patient Residual Harm Category
|
% of Devices |
% of Devices |
| Allergic Reaction |
Not Reported |
Not Reported |
| Bleeding |
0.001% |
Not Reported |
| Cardiac Event |
Not Reported |
Not Reported |
| Embolism |
Not Reported |
Not Reported |
| Infection |
Not Reported |
Not Reported |
| Perforation |
Not Reported |
Not Reported |
| Stenosis |
Not Reported |
Not Reported |
| Tissue Injury |
Not Reported |
Not Reported |
| Thrombosis |
Not Reported |
Not Reported |
Warnings and Precautions:
Warnings listed for the Femoral Catheter are as follows:
-
Do not insert catheter in thrombosed vessels.
-
Do not advance the guidewire or catheter if unusual resistance
is encountered.
-
Do not insert or withdraw the guidewire forcibly from any
component. If the guidewire becomes damaged, guidewire and any
associated componentry must be removed together.
-
Do not resterilize the catheter or accessories by any method.
-
Contents sterile and non-pyrogenic in unopened, undamaged
package. STERILIZED BY ETHYLENE OXIDE
-
Do not re-use catheter or accessories as there may be a failure
to adequately clean and decontaminate the device which may lead
to contamination, catheter degradation, device fatigue, or
endotoxin reaction.
-
Do not use catheter or accessories if package is opened or
damaged.
-
Do not use catheter or accessories if any sign of product damage
is visible or the use-by date has passed.
-
Do not use sharp instruments near the extension tubing or
catheter lumen.
-
Do not use scissors to remove dressing. Precautions listed for
Femoral Catheter are as follows:
-
Examine catheter lumen and extensions before and after each
treatment for damage.
-
To prevent accidents, ensure the security of all caps and
bloodline connections prior to and
- between treatments.
-
Use only Luer Lock (threaded) Connectors with this catheter.
-
In the rare event that a hub or connector separates from any
component during insertion or use, take all necessary steps and
precautions to prevent blood loss or air embolism and remove the
catheter.
-
Before attempting catheter insertion, ensure that you are
familiar with the potential complications and their emergency
treatment should any of them occur.
-
Repeated overtightening of bloodlines, syringes, and caps will
reduce connector life and could lead to potential connector
failure.
-
The catheter will be damaged if clamps other than what is
provided with this kit are used.
-
Avoid clamping near the Luer Lock and hub of the catheter.
Clamping of the tubing repeatedly in the same location may
weaken tubing.
Other Relevant Aspects of Safety: For a period of
01 January 2019 to 31 December 2023 there were no complaints for
62,239 units sold, giving an overall complaint rate of 0%. There
were no death-related events. No events resulted in recalls during
the review period.
5. Summary of Clinical Evaluation and Post-Market Clinical
Follow-Up (PMCF)
Summary of Clinical Data Related to Subject Device
Specific Case Numbers (Mixed Cohort Case Numbers) Identified and
Used for Clinical Performance Evaluation
| Product Family |
Clinical Literature |
PMCF Data |
Total Cases |
User Survey Responses |
| 336 |
0 |
336 |
0 |
|
Clinical performance was measured using parameters including but
not limited to dwell time, catheter insertion outcomes, and
adverse event rates. Critical clinical parameters extracted from
these studies met standards set forth in the guidelines for the
State of the Art. There were no unforeseen adverse events or other
high occurrences of adverse events detected in any of the clinical
activities. Medcomp® STHD catheters are subjected to, and must
pass, simulated use testing intended to replicate 30 days use as
part of device development. The Femoral Catheter passed this
testing. Clinical guidelines recommend to limit the use of
temporary, noncuffed, nontunneled dialysis catheters to a maximum
of 2 weeks (KDOQI 2019), however, duration of use of these
catheters has varied in available clinical evidence identified by
the manufacturer to date. Although Medcomp® catheters materials
contain non-degradable polymers, fully functional catheters may be
removed for other reasons, such as intractable infection or change
of therapy. Published clinical literature does not always focus on
the physical lifetime of a catheter for these reasons. In the case
of the Femoral Catheter, 268 catheters had a mean dwell time of 4
days [95% CI: 0.3 – 7.7 days] duration of use (Leou et al., 2013)
that has been found in clinical use reported to date. Based on
this information, the Femoral catheters have a 30 day lifetime;
however, the decision to remove and/or replace the catheter should
be based on clinical performance and need, and not any
predetermined point in time.
Summary of Clinical Data Related to the Equivalent Device
Clinical evidence from published literature and PMCF activities
has been generated specific to known and unknown variants of the
subject device. An equivalency rationale within the manufacturer’s
technical documentation demonstrates that the clinical evidence
available for these variants is representative of the range of
device variants in the device family. There are no clinical or
biological differences between variants within the subject device
family, and the potential impact of the technical differences has
been rationalized.
Summary of Clinical Data from Pre-Market Investigations (if
applicable)
No pre-market clinical devices were used for the device’s clinical
evaluation.
Summary of Clinical Data from Other Sources
Source:Summary of Published Literature
Previous clinical evidence literature searches found two published
literature articles representing 336 Femoral device family
specific cases. The most recent clinical evidence search found no
published literature articles relating to the Femoral device
family. The articles included two uncontrolled studies (Asinobi et
al. & Leou et al.). Bibliography: Asinobi AO, Ademola AD,
& Alao MA. Haemodialysis for paediatric acute kidney injury in
a low resource setting: experience from a tertiary hospital in
South West Nigeria. Clinical Kidney Journal. 2016; 9(1):63–68.
doi:10.1093/ckj/sfv112 Leou S, Garnier F, Testevuide P, Lumbroso
C, Rigault S, Cordonnier C, Hanf W. Infectious complications rate
from hemodialysis catheters: Experience from the French Polynesia.
Néphrologie & Thérapeutique. 2013; 9(3):137-142. doi:
10.1016/j.nephro.2013.01.003
• Source:PMCF_Medcomp_211
The Medcomp User Survey acquired responses from healthcare
personnel familiar with any number of Medcomp’s product offerings.
20 respondents responded that they or their facility have used
Medcomp short-term hemodialysis catheters, with 0 of those
respondents using the Femoral device. There were no differences in
mean user sentiments within short-term hemodialysis catheters
across State of the Art Performance and Safety Outcome Measures or
between device types relating to safety or performance. The
following data points were collected from users of Medcomp
short-term hemodialysis catheters (n=20):
(Mean Likert Scale Response) Catheters function as intended – 4.8
/ 5
(Mean Likert Scale Response) Packaging allows for aseptic
presentation – 4.9 / 5
(Mean Likert Scale Response) Benefit outweighs the risk – 4.7 / 5
Dwell Time (n=19) – 15.74 days (95%CI: 6.3 – 25.1)
Overall Summary of Clinical Safety and Performance
| Outcome |
Benefit/Risk Acceptability Criteria |
Desired Trend |
Clinical Literature (Subject Device) |
PMCF Data (Subject Device) |
| Performance Outcomes |
| Dwell Time |
Greater than 8 days |
+
|
1 – 55 days (Summary of Published Literature)
|
ND*
|
| Procedural Outcomes |
Greater than 95% |
+
|
100% (Summary of Published Literature)
|
ND*
|
| Safety Outcomes |
|
Catheter Related Blood Stream Infection (CRBSI)
|
Less than 7.8 incidents of CRBSI per 1,000 catheter days
|
-
|
2.3 per 1,000 catheter days (Summary of Published
Literature)
|
ND*
|
| Exit Site Infection Rate |
Less than 3.5 incidents of exit site infection per 1,000
catheter days
|
-
|
1.2 per 1,000 catheter days (Summary of Published
Literature)
|
ND*
|
|
Catheter Associated Venous Thrombus (CAVT)
|
Less than 11.4 incidents of CAVT per 1,000 catheter days
|
-
|
ND*
|
ND*
|
*ND indicates no data on the clinical data parameter:
| Outcome |
Benefit/Risk Acceptability Criteria |
Desired Trend |
Clinical Literature (Subject Device) |
PMCF Data (Subject Device) |
| Performance Outcomes |
| Safety Outcomes |
On-going or Planned Post-Market Clinical Follow-Up (PMCF)
| Activity |
Description |
Reference |
Timeline |
| Multicenter Patient-Level Case Series |
Collect additional clinical data on the device
|
PMCF_STHD_241 |
Q4 2025 |
| State of the Art Literature Search |
Identify risks and trends with use of dialysis catheters
|
SAP-HD |
Q2 2025 |
| Clinical Evidence Literature Search |
Identify risks and trends with use of the device
|
LRP-STHD |
Q3 2024 |
| Global Trial Database Search |
Identify ongoing clinical trials involving Femoral catheters
|
N/A |
Q2 2025 |
|
Truveta Data Queries and Retrospective Analysis
|
Collect additional clinical data on the device and
comparators
|
TBD |
Q4 2025 |
No emerging risks, complications or unexpected device failures
have been detected from PMCF activities.
6. Possible Therapeutic Alternatives
The Kidney Disease Outcomes Quality Initiative (KDOQI) 2019
clinical practice guidelines have been used to support the below
recommendations for treatments.
| Therapy |
Benefits |
Disadvantages |
Key Risks |
| AV Fistula |
Permanent vascular access solution; Lower complication rate
than hemodialysis via catheter
|
Requires time to mature; Patients must sometimes
self-cannulate
|
Stenosis; Thrombosis; Aneurysm; Pulmonary hypertension;
Steal Syndrome; Septicemia
|
| Hemodialysis Catheter |
Useful for quick vascular access without AV Fistula in
place; Can be used as a bridge dialysis method between other
therapies
|
Not a permanent solution; Catheter dysfunction can disrupt
regular treatment; Benefit is not equal for all patient
populations
|
Post-procedural bleeding; Infection; Thrombosis; Decreased
blood flow in dysfunctional catheter; Cardiovascular events;
Fibrin sheath formation around catheter; Septicemia
|
| Peritoneal Dialysis |
Less restrictive diet than hemodialysis; Does not require
hospitalization, can be done in any clean place
|
Clearance of impurities is limited by dialysate flow and
peritoneal area
|
Peritonitis; Septicemia; Fluid overload
|
| Kidney Transplant |
Better quality of life compared to HD; Lower risk of death
compared to HD; Fewer dietary restrictions compared to HD
|
Requires a donor which can take time; More risky for certain
groups (aged, diabetics, etc.); Patient must take rejection
medication for life; Rejection medication has side effects
|
Thrombosis; Hemorrhage; Ureteral blockage; Infection; Organ
rejection; Death; Myocardial infarction; Stroke
|
| Comprehensive Conservative Care |
Less imposed symptom burden than dialysis; Preserves life
satisfaction
|
May aggravate clinical condition; Not designed to treat, but
to minimize adverse events
|
Treatment may not actually minimize risks associated with
CKD
|
7. Suggested Profile and Training for Users
The catheter should be inserted, manipulated, and removed by a
qualified, licensed physician or other qualified health care
professional under the direction of a physician.
8. Reference to Any Harmonized Standards and Common Specifications
(CS) Applied
| Harmonized Standard or CS |
Revision |
Title or Description |
Level of Compliance |
| EN 556-1 |
2001 |
Sterilization of medical devices. Requirements for medical
devices to be designated "STERILE". Requirements for
terminally sterilized medical devices
|
Full |
| EN ISO 10555-1 |
2013+A1:2017 |
Intravascular catheters. Sterile and singleuse catheters.
General requirements
|
Full |
| EN ISO 10555-3 |
2013 |
Intravascular catheters. Sterile and singleuse catheters.
Central venous catheters
|
Full |
| EN ISO 10993-1 |
2020 |
Biological evaluation of medical devices — Part 1:
Evaluation and testing within a risk management process
|
Full |
| EN ISO 10993-7 |
2008+ A1:2022 |
Biological evaluation of medical devices — Part 7: Ethylene
oxide sterilization residuals — Amendment 1: Applicability
of allowable limits for neonates and infants
|
Full |
| EN ISO 10993-18 |
2020 |
Biological evaluation of medical devices — Part 18: Chemical
characterization of medical device materials within a risk
management process
|
Full |
| EN ISO 11070 |
2014+A1:2018 |
Sterile single-use intravascular introducers, dilators and
guidewires
|
Full |
| EN ISO 11135 |
2014 + A1: 2019 |
Sterilization of health-care products. Ethylene oxide.
Requirements for the development, validation and routine
control of a sterilization process for medical devices
|
Full |
| EN ISO 11138-1 |
2017 |
Sterilization of health care products — Biological
indicators Part 1: General requirements
|
Full |
| EN ISO 11138-2 |
2017 |
Sterilization of health care products—Biological
indicators—Part 2: Biological indicators for ethylene oxide
sterilization processes
|
Full |
| EN ISO 11138-7 |
2019 |
Sterilization of health care products. Biological indicators
- Guidance for the selection, use and interpretation of
results
|
Full |
| EN ISO 11140-1 |
2014 |
Sterilization of health care products — Chemical indicators
Part 1: General requirements
|
Full |
| EN ISO 11607-1 |
2020 |
Packaging for terminally sterilized medical devices.
Requirements for materials, sterile barrier systems and
packaging systems
|
Full |
| EN ISO 11607-2 |
2020 |
Packaging for terminally sterilized medical devices.
Validation requirements for forming, sealing and assembly
processes
|
Full |
| EN ISO 11737-1 |
2018 + A1: 2021 |
Sterilization of health care products. Microbiological
methods. Determination of a population of microorganisms on
products
|
Full |
| EN ISO 13485 |
2016 + A11: 2021 |
Medical Devices – Quality Management system – Requirements
for Regulatory Purposes
|
Full |
| EN ISO 14155 |
2020 |
Clinical investigation of medical devices for human subjects
— Good clinical practice
|
Full |
| EN ISO 14644-1 |
2015 |
Cleanrooms and associated controlled environments — Part 1:
Classification of air cleanliness by particle concentration
|
Full |
| EN ISO 14644-2 |
2015 |
Cleanrooms and associated controlled environments — Part 2:
Monitoring to provide evidence of cleanroom performance
related to air cleanliness by particle concentration
|
Full |
| EN ISO 14971 |
2019+A11:2021 |
Medical devices. Application of risk management to medical
devices
|
Full |
| EN ISO 15223-1 |
2021 |
Medical devices — Symbols to be used with medical device
labels, labelling and information to be supplied — Part 1:
General requirements
|
Full |
| EN ISO/IEC 17025 |
2017 |
General requirements for the competence of testing and
calibration laboratories
|
Full |
| PD CEN ISO/TR 20416 |
2020 |
Medical devices — post-market surveillance for manufacturers
|
Full |
| EN ISO 20417 |
2021 |
Medical devices - Information to be supplied by the
manufacturer.
|
Full |
| EN 62366-1 |
2015 + A1: 2020 |
Medical devices — Part 1: Application of usability
engineering to medical devices
|
Full |
| ISO 7000 |
2019 |
Graphical symbols for use on equipment. Registered symbols
|
Partial |
| ISO 594-1 |
1986 |
Conical fittings with a 6 % (Luer) taper for syringes,
needles and certain other medical equipment — Part 1:
General requirements
|
Full |
| ISO 594-2 |
1998 |
Conical fittings with a 6 % (Luer) taper for syringes,
needles and certain other medical equipment — Part 2: Lock
Fittings
|
Full |
| MEDDEV 2.7.1 |
Rev 4 |
Clinical Evaluation: A Guide for Manufacturers and Notified
Bodies Under Directives 93/42/EEC and 90/385/EEC
|
Full |
| MEDDEV 2.12/2 |
Rev. 2 |
GUIDELINES ON MEDICAL DEVICES POST MARKET CLINICAL FOLLOW-UP
STUDIES A GUIDE FOR MANUFACTURERS AND NOTIFIED BODIES
|
Full |
| MDCG 2020-6 |
2020 |
Clinical evidence needed for medical devices previously CE
marked under Directives 93/42/EEC or 90/385/EEC
|
Full |
| MDCG 2020‑7 |
2020 |
Post-market clinical follow-up (PMCF) Plan Template A guide
for manufacturers and notified bodies
|
Full |
| MDCG 2020‑8 |
2020 |
Post-market clinical follow-up (PMCF) Evaluation Report
Template A guide for manufacturers and notified bodies
|
Full |
| MDCG 2018-1 |
Rev. 4 |
Guidance on BASIC UDI-DI and changes to UDI-DI
|
Full |
| MDCG 2019-9 |
2022 |
Summary of safety and clinical performance
|
Full |
| ASTM D 4169-22 |
2022 |
Standard Practices for Performance Testing of Shipping
Containers and Systems.
|
Full |
| ASTM F2096-11 |
2019 |
Standard Test Method for Detecting Gross Leaks in Packaging
by Internal Pressurization (Bubble Test)
|
Full |
| ASTM F2503-20 |
2020 |
Standard Practice for Marking Medical Devices and Other
Items for Safety in the Magnetic Resonance Environment
|
Full |
| ASTM F640-20 |
2020 |
Standard Test Methods for determining Radiopacity for
Medical Use
|
Full |
| ASTM D4332-14 |
2014 |
Standard Practice for Conditioning Containers, Packages, or
Packaging Components for Testing
|
Full |
| Regulation (EU) 2017/745 |
2017 |
Regulation (EU) 2017/745 of the European Parliament and of
the Council
|
Full |
Revision History
| Revision |
Date |
CR# |
Author |
Description of Changes |
Validated |
| 1 |
07NOV2022 |
27445 |
KO |
Initial Implementation of SSCP |
No, this version was not validated by the Notified Body as
this is a Class IIa or IIb implantable device
|
| 2 |
09OCT2023 |
28523 |
GM |
Updated SSCP in accordance with CER 022_C.1 which includes
the addition of planned PMCF activities PMCF_STHD_241 and
Truveta Data Analysis; updated language throughout the
patient section to enhance readability
|
No, this version was not validated by the Notified Body as
this is a Class IIa or IIb implantable device
|
| 3 |
15APR2024 |
29025 |
GM |
Updated SSCP in accordance with CER 022_D which includes
updated post market surveillance information
|
No, this version was not validated by the Notified Body as
this is a Class IIa or IIb implantable device
|