This presentation provides an overview of medical textiles. It begins with an introduction to medical textiles and their importance in the textile industry. Medical textiles are engineered materials suitable for medical applications where strength, flexibility, and permeability are required. The document then categorizes medical textiles into four areas: non-implantable materials like bandages and wound dressings, extracorporeal devices like artificial kidneys, implantable materials like sutures and grafts, and healthcare products like surgical gowns and bedding. It provides examples of materials used and manufacturing methods for categories. The presentation concludes that textile materials are crucial to medicine and surgery due to their versatility.
2. Presented by
Md. Al-Amin Masum
ID: 2015100400011
Batch: 29th
BSc in Textile Engineering
Southeast University
alaminmasum11@gmail.com
3. Medical textile
Introduction: An important and
growing part of the textile
industry is the medical and
related healthcare and hygiene
sector. The extent of the growth
is due to constant improvements
and innovations in both textile
technology and medical
procedures. Textile materials and
products that have been
engineered to meet particular
needs, are suitable for any
medical and surgical application
where a combination of strength,
flexibility, and sometimes
moisture and air permeability are
required. Materials used include
monofilament and multifilament
yarns, woven, knitted, and
nonwoven fabrics, and
composite structures
4. History of Medical textile
The majority of the
healthcare products
manufactured worldwide
are disposable, while the
remainder can be reused.
According to a survey in
the USA during the decade
1980–1990, the growth of
medical textile products
occurred at a compound
annual rate of 11%.It is
estimated that the annual
growth was around 10%
during 1991–2000.
5. Medical textile
Medical textile: All
textiles used in
operative and post
operative tasks in and
around a patient and
the medical
practitioners are
termed as medical
textile. These highly
specialized and bio-
compatible technical
textile used for
medical & hygiene
applications are
called MED-TECH.
6. Categories of medical textile
These materials can be categorized into four
separate and specialized areas of application as
follows:
• Non-implantable materials – wound dressings,
bandages, plasters, etc.
• Extracorporeal devices – artificial kidney, liver,
and lung
• Implantable materials – sutures, vascular grafts,
artificial ligaments, artificial joints, etc.
• Healthcare/hygiene products – bedding, clothing,
surgical gowns, cloths, wipes, etc.
7. Non-implantable materials
These materials are
used for external
applications on the
body and may or may
not make contact with
skin. The range of
textile materials
employed within this
category, the fibres
used, and the
principal method of
manufacture.
9. Extracorporeal devices
Extracorporeal devices
are mechanical organs
that are used for blood
purification and include
the artificial kidney
(dialyzer), the artificial
liver, and the
mechanical lung. The
function and
performance of these
devices benefit from
fiber and textile
technology. The
function of each device
and the materials used
in their manufacture.
10. Extracorporeal devices
Artificial kidney : The artificial kidney is achieved by
circulating the blood through a membrane, which may be
either a flat sheet or a bundle of hollow regenerated cellulose
fibres in the form of cellophane that retain the unwanted
waste materials.
Multilayer filter: Multilayer filters composed of numerous
layers of needlepunched fabrics with varying densities may
also be used and are designed rapidly and efficiently to
remove the waste materials.
Artificial liver : The artificial liver utilises hollow fibres or
membranes similar to those used for the artificial kidney to
perform their function.
Artificial lung: The microporous membranes of the
mechanical lung possess high permeability to gases but low
permeability to liquids and functions in the same manner as
the natural lung allowing oxygen to come into contact with the
patient’s blood.
11. Implantable materials
These materials are used in effecting repair to the body
whether it be wound closure (sutures) or replacement surgery
(vascular grafts, artificial ligaments, etc). Biocompatibility is of
prime importance if the textile material is to be accepted by
the body and four key factors will determine how the body
reacts to the implant. These are as follows:
The most important factor is porosity which determines the
rate at which human tissue will grow and encapsulate the
implant.
Small circular fibres are better encapsulated with human
tissue than larger fibres with irregular cross-sections.
Toxic substances must not be released by the fibre polymer,
and the fibres should be free from surface contaminants such
as lubricants and sizing agents.
The properties of the polymer will impudence the success of
the implantation in terms of its biodegradability.
13. Healthcare/hygiene products
Healthcare and hygiene
products are an important
sector in the field of
medicine and surgery. The
range of products available
is vast but typically they
are used either in the
operating theatre or on the
hospital ward for the
hygiene, care, and safety
of staff and patients. Textile
materials used in the
operating theatre include
surgeon’s gowns, caps
and masks, patient drapes,
and cover cloths of various
sizes
16. Growth of medical textile
In western Europe the usage of nonwoven
medical products between 1970 and 1994 rose
from 3000 tones to 19700 tones). The medical
product sales of textile-based items in the USA
amounted to $11.3 billion in 1980 and $32.1 billion
in 1990.This figure is expected to have reached a
staggering $76 billion by the year 2000.The US
market for disposable healthcare products alone
was estimated to rise from $1.5 billion in 1990 to
$2.6 billion in 1999.In Europe, medical textiles
already have a 10% share of the technical textiles
market, with 100000 tones of fiber, a growth rate
of 3–4% per year and a market of US$7 billion.
18. Conclusion
Textile materials are very important in all
aspects of medicine and surgery and the
range and extent of applications to which
these materials are used is a reflection of their
enormous versatility.Products utilised for
medical or surgical applications may at first
sight seem to be either extremely simple or
complex items.