The biopharmaceutical tubing market is projected to reach US$ 6,013.27 million by 2028 from US$ 3,442.82 million in 2021; it is expected to grow at a CAGR of 8.3% from 2021 to 2028.
Biopharmaceutical tubing are specifically designed to meet critical needs of biopharmaceutical and medical industries. This tubing is produced by the extrusion process and is extensively used in drug delivery systems, feeding tubes, and peristaltic pumps as well in a wide range of minimally critical invasive applications, including stent delivery systems, cardiovascular catheters, and urological retrieval devices. Moreover, these are also used with anesthesiology and respiratory equipment, IVs, and biopharmaceutical laboratory equipment. They confer exceptional thermal, mechanical, and chemical properties.
Request for sample Research Report at: https://www.theinsightpartners.com/sample/TIPRE00008648/
A few prominent players operating in the biopharmaceutical tubing market are W. L. Gore and Associates, Inc., Saint-Gobain Sekurit, Freudenberg Group, RAUMEDIC AG, TEKNI-PLEX, NewAge Industries, Inc., Optinova, Zeus Industrial Products, Inc., NORDSON CORPORATION, DuPont de Nemours, Inc.
Companies are launching new and innovative products and services to sustain their position in the biopharmaceutical tubing market. In September 2021, DuPont introduced DuPont Liveo, a new brand name for its extensive range of silicone healthcare solutions. The Liveo brand product line includes pharma tubing and overmolded assemblies for single-use systems meant to be used in biopharma processing, transdermal and topical drug delivery systems, and medical adhesives, among others.
The COVID-19 pandemic is having the mixed impact on the biopharmaceutical tubing market. Growing COVID-19 infection in people with existing medical conditions such as asthma and diabetes also influences the growth of the market. There is a rise in the demand for drug delivery devices and equipment such as nasogastric tubes, nebulizers, spacer devices, etc. Therefore, these factors are driving the demand for biopharmaceutical tubing during the forecast period. On the other hand, many countries have changed medical device regulations owing to supply chain obstruction affect negatively on biopharmaceutical tubing market.
Based on type, the global biopharmaceutical tubing market is segmented into plastic, metal, and silicone. In 2020, the silicone segment held the largest share of the market. Moreover, the market for the silicone segment is expected to grow at the highest CAGR during 2021–2028. The biocompatibility of silicone allows it to be compatible with human tissues and body fluids, increasing its use in medical tubing as well as a silicone tube imparts properties such as biocompatibility, superior resistance to high temperatures and chemicals, mechanical strength, and electric properties. This factor is likely to boost the demand for biopharmaceutical tubing across the world during the forecast period.
The growing prevalence of arthritis, cancer, and cardiovascular diseases, all of which require extensive surgical treatments, has boosted demand for minimally invasive procedures. As a result, there is an enormous demand for catheters and biopharmaceutical tubing, among other components. Furthermore, biopharmaceutical tubing systems are reasonably priced and aid in time-saving procedures. For example, employing catheter tubing for cardiac and urine catheterization significantly lowers the time required for the medical or surgical operation. Therefore, the growing demand for minimally invasive medical procedures and focus on increasing the efficiency of these procedures play an important role in propelling the demand for biopharmaceutical tubing.
The report segments the global biopharmaceutical tubing market as follows:
Place an Order Now: https://www.theinsightpartners.com/buy/TIPRE00008648/