logo

Veterinary Surgical Instruments Market

  • Industries
    •   Information & Technology
    •   Healthcare
    •   Machinery & Equipment
    •   Automotive & Transportation
    •   Food & Beverages
    •   Energy & Power
    •   Aerospace & Defense
    •   Agriculture
    •   Chemicals & Materials
    •   Architecture
    •   Consumer Goods
  • Blogs
  • About
  • Contact
  1. Home
  2. Machinery & Equipment
  3. Veterinary Surgical Instruments Market

Veterinary Surgical Instruments Market Size, Share, Growth, and Industry Analysis, By Types (Handheld Devices, Electrosurgery Instruments, Sutures, Staplers, and Accessories, Others), By Applications Covered (Soft Tissue Surgery, Cardiovascular Surgery, Ophthalmic Surgery, Dental Surgery, Orthopedic Surgery, Others), Regional Insights and Forecast to 2033

 Request a FREE Sample PDF
Last Updated: April 28 , 2025
Base Year: 2024
Historical Data: 2020-2023
No of Pages: 121
SKU ID: 22378665
  •  Request a FREE Sample PDF
  • Summary
  • TOC
  • Drivers & Opportunity
  • Segmentation
  • Regional Outlook
  • Key Players
  • Methodology
  • FAQ
  •  Request a FREE Sample PDF

Veterinary Surgical Instruments Market Size

The Veterinary Surgical Instruments Market was valued at USD 1,272.96 million in 2024 and is projected to reach USD 1,347.42 million in 2025, further expanding to USD 2,123.40 million by 2033, growing at a rate of 5.85% during the forecast period 2025-2033.

The U.S. Veterinary Surgical Instruments Market holds approximately 40% of the global share, driven by rising pet ownership, increased pet insurance coverage, and advancements in minimally invasive surgical techniques. The demand for electrosurgical and orthopedic instruments has grown by 35%, supporting market expansion.

Veterinary Surgical Instruments Market

Request a Free sample    to learn more about this report.

The veterinary surgical instruments market is expanding due to rising pet ownership, increased demand for advanced veterinary care, and improved surgical techniques. The market has witnessed a 40% increase in demand for electrosurgical instruments, reflecting a shift towards precision and minimally invasive procedures. The adoption of sutures, staplers, and wound closure accessories has grown by 35%, driven by a need for faster healing and reduced infection risks. Additionally, specialized dental surgical instruments have seen a 30% rise in demand, highlighting a growing focus on oral health in companion animals.

Veterinary Surgical Instruments Market Trends

The veterinary surgical instruments market is experiencing several significant trends. The adoption of minimally invasive surgical procedures has increased by 45%, as pet owners seek faster recovery times and lower surgical risks for their animals. The demand for advanced imaging-assisted surgical instruments has risen by 30%, reflecting the growing reliance on precision diagnostics in veterinary surgery.

Additionally, laparoscopic and endoscopic surgical instruments have witnessed a 35% surge in demand, as veterinarians prefer less invasive techniques for internal procedures. The market for orthopedic surgical instruments has grown by 40%, driven by an increase in fracture repair and joint replacement surgeries for aging pets. The rising prevalence of obesity-related conditions in companion animals has contributed to a 25% rise in demand for bariatric and soft tissue surgical instruments.

Furthermore, robot-assisted veterinary surgeries have gained traction, with a 20% increase in adoption, particularly in specialty animal hospitals and academic research centers. The demand for customized and 3D-printed surgical instruments has increased by 28%, improving surgical precision and reducing procedural errors. These trends highlight the rapid evolution of veterinary surgical practices, with technology playing a crucial role in shaping the industry's future.

Veterinary Surgical Instruments Market Dynamics

The veterinary surgical instruments market is influenced by multiple dynamic factors. The growing population of companion animals has led to a 50% increase in demand for surgical interventions and advanced medical procedures. The rise in pet insurance coverage has contributed to a 30% increase in high-cost surgical procedures, enabling veterinarians to adopt cutting-edge surgical instruments.

However, high costs associated with advanced surgical tools have led to a 20% slowdown in adoption among small veterinary clinics and independent practitioners. The lack of skilled veterinary surgeons trained in minimally invasive procedures has resulted in a 15% gap in advanced surgical instrument utilization.

Despite these challenges, government and private sector investments in veterinary healthcare have increased by 40%, facilitating the development of specialty animal hospitals and surgical training centers. The integration of AI-driven surgical planning and robotic-assisted surgeries is expected to drive a 35% increase in advanced veterinary surgical instrument usage.

Drivers of Market Growth

" Increasing Pet Ownership and Veterinary Expenditures"

The rise in pet ownership has led to a 50% increase in demand for veterinary surgical procedures, driving the need for advanced surgical instruments. Pet insurance coverage has expanded by 35%, allowing more pet owners to afford specialized and complex surgeries. Additionally, demand for minimally invasive surgical instruments has surged by 40%, reflecting a shift toward faster recovery and lower post-operative risks. The increase in orthopedic conditions among aging pets has contributed to a 30% growth in demand for orthopedic surgical instruments, boosting market expansion across veterinary clinics and animal hospitals.

Market Restraints

" High Cost of Advanced Veterinary Surgical Instruments"

The high cost of advanced surgical instruments has resulted in a 20% slowdown in adoption among small veterinary clinics. Minimally invasive and robotic-assisted surgical tools are priced 35% higher than traditional instruments, making them inaccessible to budget-limited practices. Additionally, import taxes and regulatory approvals have increased surgical equipment costs by 15%, limiting availability in developing regions. The maintenance and sterilization expenses of high-end surgical instruments have risen by 25%, further discouraging widespread adoption. As a result, many veterinarians continue to rely on traditional surgical tools, delaying market penetration of innovative technologies.

Market Opportunities

"Growth in Specialized Veterinary Surgeries and AI-Driven Surgical Tools"

The rising demand for specialized veterinary surgeries has increased by 45%, creating opportunities for customized and high-precision surgical instruments. The development of AI-assisted surgical planning tools has led to a 30% improvement in surgical accuracy and efficiency. Additionally, the adoption of 3D-printed surgical instruments has grown by 25%, reducing costs and enhancing instrument customization. The expansion of specialty veterinary hospitals has contributed to a 35% rise in demand for advanced laparoscopic and orthopedic surgical tools. The growing integration of robotics in veterinary procedures has opened new markets, with robotic-assisted surgeries increasing by 20%.

Market Challenges

"Shortage of Skilled Veterinary Surgeons and Training Gaps"

The shortage of skilled veterinary surgeons trained in minimally invasive and robotic-assisted procedures has created a 15% gap in the adoption of advanced surgical instruments. The demand for specialized veterinary surgeons has increased by 30%, but training programs have expanded by only 10%, creating a disparity in skilled professionals. Additionally, high training costs have resulted in a 20% delay in the adoption of new surgical technologies. Veterinary schools and clinics investing in surgical training programs have seen a 25% improvement in surgical efficiency, but addressing the shortage remains a significant industry challenge.

Segmentation Analysis

The veterinary surgical instruments market is segmented based on type and application, catering to various surgical needs in veterinary medicine. By type, the market includes handheld devices, electrosurgery instruments, sutures, staplers, and accessories, among others. Each segment plays a crucial role in improving surgical efficiency, precision, and patient recovery. By application, the market is categorized into soft tissue surgery, cardiovascular surgery, ophthalmic surgery, dental surgery, and orthopedic surgery, reflecting the increasing demand for specialized surgical procedures. The rising pet population and advanced surgical technologies have contributed to a 35% increase in demand for precision surgical instruments globally.

By Type

  • Handheld Devices: Handheld veterinary surgical instruments account for 40% of the market, with a 30% increase in demand due to their precision and reliability in surgical procedures. Instruments such as forceps, scalpels, retractors, and scissors are widely used in general and specialized surgeries. The growing adoption of stainless steel and titanium instruments has improved durability and sterilization efficiency by 25%. Additionally, custom-designed surgical tools for micro and reconstructive surgeries have contributed to a 20% rise in usage, particularly in advanced veterinary clinics and hospitals.

  • Electrosurgery Instruments: Electrosurgery instruments represent 25% of the veterinary surgical instruments market, with demand increasing by 35% due to their ability to enhance surgical precision and reduce intraoperative bleeding. The adoption of bipolar and monopolar electrosurgical devices has surged by 30%, particularly in soft tissue and minimally invasive surgeries. Additionally, thermal cautery and radiofrequency devices have improved surgical outcomes by 28%, leading to a higher adoption rate in specialty veterinary hospitals. The use of energy-based surgical instruments has also resulted in a 20% reduction in post-surgical complications, further increasing market penetration.

  • Sutures, Staplers, and Accessories: Sutures, staplers, and accessories hold a 20% market share, with a 30% growth in demand for absorbable and non-absorbable sutures in soft tissue surgeries. The use of biodegradable sutures has increased by 25%, reducing post-surgical infections and improving wound healing. The adoption of automated skin staplers has surged by 22%, facilitating quicker and more efficient wound closure. Additionally, the rise in minimally invasive procedures has led to a 15% increase in demand for microsutures and fine-tipped surgical staplers, enhancing precision in delicate surgeries.

  • Others: Other veterinary surgical instruments, including laparoscopic, robotic-assisted, and laser-based tools, account for 15% of the market, with a 25% rise in demand due to technological advancements. The introduction of 3D-printed surgical instruments has increased usage by 20%, reducing production costs and allowing for customized surgical tools. The demand for robotic-assisted veterinary surgery instruments has grown by 18%, improving surgical accuracy and reducing recovery times. Additionally, laser surgery devices have witnessed a 15% increase in adoption, particularly in ophthalmic and soft tissue procedures, providing minimally invasive treatment options.

By Application

  • Soft Tissue Surgery: Soft tissue surgery accounts for 35% of the market, with a 40% rise in demand for precision surgical tools. The increasing number of tumor removals, wound repairs, and reconstructive procedures has driven a 30% increase in electrosurgical device usage. Additionally, the demand for biodegradable sutures has grown by 25%, reducing complications and improving healing outcomes.

  • Cardiovascular Surgery: Cardiovascular veterinary surgeries represent 15% of the market, with a 35% increase in demand for microvascular instruments. The adoption of minimally invasive heart valve repair devices has grown by 28%, improving surgical outcomes in aging pets.

  • Ophthalmic Surgery: Ophthalmic surgeries account for 10% of the market, with a 30% rise in demand for specialized microsurgical instruments. The use of laser-assisted ophthalmic tools has increased by 25%, enhancing precision in cataract and corneal repair surgeries.

  • Dental Surgery: Dental surgical instruments represent 20% of the market, with a 35% growth in demand for veterinary dental extractions and periodontal treatments. The adoption of ultrasonic dental tools has increased by 30%, improving efficiency in scaling and root planing procedures.

  • Orthopedic Surgery: Orthopedic surgeries hold 20% of the market, with a 40% rise in demand for joint replacement and fracture fixation instruments. The use of titanium orthopedic implants has grown by 30%, improving post-surgical recovery rates in companion animals.

report_world_map

Request a Free sample    to learn more about this report.

Veterinary Surgical Instruments Regional Outlook

The veterinary surgical instruments market is geographically divided into North America, Europe, Asia-Pacific, and the Middle East & Africa, each contributing to market expansion. North America leads the market with a 40% share, followed by Europe (25%), Asia-Pacific (22%), and the Middle East & Africa (13%). The demand for electrosurgery and minimally invasive instruments has increased by 35% globally, with a 30% surge in pet insurance coverage supporting market growth. The rising focus on specialized veterinary hospitals has resulted in a 25% expansion in advanced surgical facilities, boosting the adoption of robotic and AI-assisted surgical tools.

North America

North America holds a 40% market share, with a 50% rise in demand for veterinary surgical procedures due to increasing pet ownership. The adoption of electrosurgical instruments has grown by 40%, improving surgical precision. Pet insurance penetration has increased by 35%, enabling pet owners to afford high-cost surgical treatments. The demand for orthopedic and dental surgical instruments has risen by 30%, as aging pets require more interventions. Additionally, minimally invasive surgical tools have seen a 25% rise, reflecting a shift toward faster recovery and lower post-operative risks.

Europe

Europe accounts for 25% of the market, with a 30% increase in demand for laparoscopic and endoscopic surgical instruments. The adoption of robotic-assisted veterinary surgeries has grown by 28%, particularly in specialized veterinary hospitals. The rise in pet adoption rates has driven a 25% increase in the usage of advanced soft tissue and dental surgical tools. The growing focus on minimally invasive procedures has contributed to a 20% rise in demand for micro-instruments and precision surgical equipment.

Asia-Pacific

Asia-Pacific holds 22% of the market, with a 35% increase in demand for veterinary surgical instruments due to rising pet ownership. The expansion of animal healthcare facilities has led to a 30% growth in electrosurgical and soft tissue surgical devices. The adoption of AI-driven veterinary surgery tools has increased by 25%, improving surgical accuracy. Additionally, the rise in livestock surgeries has driven a 20% rise in demand for large-animal surgical instruments.

Middle East & Africa

The Middle East & Africa region accounts for 13% of the market, with a 25% rise in demand for advanced veterinary surgical instruments. The expansion of pet care services has contributed to a 20% increase in surgical procedures. Additionally, government initiatives in animal healthcare have led to a 15% rise in specialized veterinary hospital facilities. The use of energy-based surgical tools has grown by 10%, improving surgical efficiency in rural veterinary clinics.

LIST OF KEY VETERINARY SURGICAL INSTRUMENTS MARKET COMPANIES PROFILED

  • B. Braun Melsungen AG

  • Smiths Medical

  • Medtronic

  • Surgical Holdings

  • Sklar Surgical Instruments

  • Steris

  • DRE Veterinary

  • Integra LifeSciences

  • Eickemeyer Veterinary Equipment Inc.

Top Two Companies with the Highest Market Share

  1. B. Braun Melsungen AG – Holds approximately 26% of the global veterinary surgical instruments market, leading in advanced surgical tools and minimally invasive solutions.
  2. Medtronic – Accounts for around 22% of the market, specializing in high-precision electrosurgical devices and robotic-assisted veterinary surgeries.

Investment Analysis and Opportunities

The veterinary surgical instruments market is witnessing significant investment growth, fueled by the rising demand for specialized veterinary surgeries. Investments in electrosurgical and minimally invasive surgical instruments have increased by 40%, as veterinary hospitals prioritize precision-driven procedures. The development of robotic-assisted veterinary surgeries has led to a 30% rise in capital allocation, particularly for large animal and orthopedic surgical solutions.

Private veterinary clinics have expanded their budgets for AI-assisted surgical planning, contributing to a 35% increase in investments for advanced imaging and surgical navigation systems. Additionally, funding for 3D-printed surgical instruments has grown by 28%, enabling customization and cost reduction. The global expansion of veterinary healthcare facilities has resulted in a 25% rise in investments for multi-specialty veterinary hospitals and surgical centers.

Companies specializing in surgical training and education have increased funding by 20%, ensuring that veterinary professionals can adopt the latest laparoscopic and orthopedic surgical techniques. The rise of pet insurance policies has driven a 22% increase in high-end surgical instrument purchases, as pet owners seek advanced treatment options. With growing technological advancements and increasing demand, investments in veterinary surgical innovations are expected to rise further.

New Product Development

The veterinary surgical instruments market has seen a wave of product innovations, improving surgical efficiency, precision, and post-operative outcomes. In 2023, manufacturers introduced smart electrosurgical instruments, increasing precision by 35% and reducing surgical complications by 30%. The launch of robot-assisted veterinary surgery tools has contributed to a 28% rise in minimally invasive surgical procedures.

In 2024, the introduction of biodegradable sutures and advanced wound closure systems resulted in a 25% decrease in post-surgical infections. 3D-printed orthopedic implants have improved customization and affordability, leading to a 22% growth in adoption across veterinary orthopedic procedures. Additionally, micro-surgical tools for ophthalmic and cardiovascular procedures have seen a 20% increase in demand, improving surgical outcomes in delicate procedures.

Manufacturers have also launched energy-based surgical tools such as radiofrequency and ultrasonic scalpels, reducing blood loss by 30% during surgeries. The introduction of AI-powered surgical planning software has contributed to a 15% reduction in surgical errors, enhancing precision in complex veterinary procedures. With ongoing advancements in minimally invasive, robotic-assisted, and smart surgical instruments, manufacturers continue to shape the future of veterinary surgery with cutting-edge innovations.

Recent Developments by Manufacturers in Veterinary Surgical Instruments Market 

  • B. Braun Melsungen AG (2023) – Launched a robotic-assisted veterinary surgical platform, increasing precision and reducing surgery time by 35%.

  • Medtronic (2023) – Introduced AI-driven surgical navigation systems, improving surgical accuracy by 28% in soft tissue and orthopedic procedures.

  • Smiths Medical (2024) – Developed 3D-printed custom surgical implants, enhancing joint replacement efficiency by 22% in large animals.

  • Steris (2024) – Released biodegradable sutures and antimicrobial-coated surgical tools, reducing infection rates by 25% post-surgery.

  • Integra LifeSciences (2024) – Expanded its energy-based surgical instrument range, increasing adoption of electrosurgical devices by 30%.

Report Coverage of Veterinary Surgical Instruments Market

The veterinary surgical instruments market report provides an in-depth analysis of market trends, competitive landscape, and technological advancements. It covers segmentation by type, highlighting handheld devices, electrosurgery instruments, sutures, and robotic-assisted surgical tools. The report details application-based growth, with orthopedic surgeries accounting for 20% of market demand, followed by soft tissue (35%), cardiovascular (15%), dental (20%), and ophthalmic (10%) surgical procedures.

The study also provides regional insights, showing North America leading with 40% market share, followed by Europe (25%), Asia-Pacific (22%), and the Middle East & Africa (13%). The demand for energy-based and minimally invasive surgical instruments has increased by 35% globally, reflecting a shift toward advanced veterinary surgical solutions.

Investment analysis highlights a 40% rise in capital funding for electrosurgery tools, a 30% increase in AI-assisted surgical planning, and a 28% growth in robotic-assisted veterinary procedures. Additionally, the adoption of 3D-printed orthopedic implants has increased by 22%, enhancing surgical precision.

The report also includes five recent industry developments, covering robotic-assisted veterinary surgeries, biodegradable suture innovations, and AI-driven surgical navigation systems. With a focus on advanced surgical instruments, technological innovation, and rising demand for pet healthcare, the report offers key insights into the future of the veterinary surgical industry.

 Veterinary Surgical Instruments Market Report Detail Scope and Segmentation
Report Coverage Report Details

Top Companies Mentioned

B. Braun Melsungen AG, Smiths Medical, Medtronic, Surgical Holdings, Sklar Surgical Instruments, Steris, DRE Veterinary, Integra LifeSciences, Eickemeyer Veterinary Equipment Inc.

By Applications Covered

Soft Tissue Surgery, Cardiovascular Surgery, Ophthalmic Surgery, Dental Surgery, Orthopedic Surgery, Others

By Type Covered

Handheld Devices, Electrosurgery Instruments, Sutures, Staplers, and Accessories, Others

No. of Pages Covered

121

Forecast Period Covered

2025 to 2033

Growth Rate Covered

CAGR of 5.85%  during the forecast period

Value Projection Covered

USD 2123.39766864716 Million by 2033

Historical Data Available for

2020 to 2023

Region Covered

North America, Europe, Asia-Pacific, South America, Middle East, Africa

Countries Covered

U.S. ,Canada, Germany,U.K.,France, Japan , China , India, South Africa , Brazil

Frequently Asked Questions

  • What value is the  Veterinary Surgical Instruments market expected to touch by 2033?

    The global  Veterinary Surgical Instruments market is expected to reach USD 2123.39 Million by 2033.

  • What CAGR is the  Veterinary Surgical Instruments market expected to exhibit by 2033?

    The  Veterinary Surgical Instruments market is expected to exhibit a CAGR of 5.85%  by 2033.

  • Who are the top players in the  Veterinary Surgical Instruments Market?

    B. Braun Melsungen AG, Smiths Medical, Medtronic, Surgical Holdings, Sklar Surgical Instruments, Steris, DRE Veterinary, Integra LifeSciences, Eickemeyer Veterinary Equipment Inc.

  • What was the value of the  Veterinary Surgical Instruments market in 2024?

    In 2024, the  Veterinary Surgical Instruments market value stood at USD 1272.95 Million.

What is included in this Sample?

  • * Market Segmentation
  • * Key Findings
  • * Research Scope
  • * Table of Content
  • * Report Structure
  • * Report Methodology

Download FREE Sample Report

man icon
Mail icon
+1
  • United States+1
  • Afghanistan (‫افغانستان‬‎)+93
  • Albania (Shqipëri)+355
  • Algeria (‫الجزائر‬‎)+213
  • American Samoa+1684
  • Andorra+376
  • Angola+244
  • Anguilla+1264
  • Antigua and Barbuda+1268
  • Argentina+54
  • Armenia (Հայաստան)+374
  • Aruba+297
  • Australia+61
  • Austria (Österreich)+43
  • Azerbaijan (Azərbaycan)+994
  • Bahamas+1242
  • Bahrain (‫البحرين‬‎)+973
  • Bangladesh (বাংলাদেশ)+880
  • Barbados+1246
  • Belarus (Беларусь)+375
  • Belgium (België)+32
  • Belize+501
  • Benin (Bénin)+229
  • Bermuda+1441
  • Bhutan (འབྲུག)+975
  • Bolivia+591
  • Bosnia and Herzegovina (Босна и Херцеговина)+387
  • Botswana+267
  • Brazil (Brasil)+55
  • British Indian Ocean Territory+246
  • British Virgin Islands+1284
  • Brunei+673
  • Bulgaria (България)+359
  • Burkina Faso+226
  • Burundi (Uburundi)+257
  • Cambodia (កម្ពុជា)+855
  • Cameroon (Cameroun)+237
  • Canada+1
  • Cape Verde (Kabu Verdi)+238
  • Caribbean Netherlands+599
  • Cayman Islands+1345
  • Central African Republic (République centrafricaine)+236
  • Chad (Tchad)+235
  • Chile+56
  • China (中国)+86
  • Christmas Island+61
  • Cocos (Keeling) Islands+61
  • Colombia+57
  • Comoros (‫جزر القمر‬‎)+269
  • Congo (DRC) (Jamhuri ya Kidemokrasia ya Kongo)+243
  • Congo (Republic) (Congo-Brazzaville)+242
  • Cook Islands+682
  • Costa Rica+506
  • Côte d’Ivoire+225
  • Croatia (Hrvatska)+385
  • Cuba+53
  • Curaçao+599
  • Cyprus (Κύπρος)+357
  • Czech Republic (Česká republika)+420
  • Denmark (Danmark)+45
  • Djibouti+253
  • Dominica+1767
  • Dominican Republic (República Dominicana)+1
  • Ecuador+593
  • Egypt (‫مصر‬‎)+20
  • El Salvador+503
  • Equatorial Guinea (Guinea Ecuatorial)+240
  • Eritrea+291
  • Estonia (Eesti)+372
  • Ethiopia+251
  • Falkland Islands (Islas Malvinas)+500
  • Faroe Islands (Føroyar)+298
  • Fiji+679
  • Finland (Suomi)+358
  • France+33
  • French Guiana (Guyane française)+594
  • French Polynesia (Polynésie française)+689
  • Gabon+241
  • Gambia+220
  • Georgia (საქართველო)+995
  • Germany (Deutschland)+49
  • Ghana (Gaana)+233
  • Gibraltar+350
  • Greece (Ελλάδα)+30
  • Greenland (Kalaallit Nunaat)+299
  • Grenada+1473
  • Guadeloupe+590
  • Guam+1671
  • Guatemala+502
  • Guernsey+44
  • Guinea (Guinée)+224
  • Guinea-Bissau (Guiné Bissau)+245
  • Guyana+592
  • Haiti+509
  • Honduras+504
  • Hong Kong (香港)+852
  • Hungary (Magyarország)+36
  • Iceland (Ísland)+354
  • India (भारत)+91
  • Indonesia+62
  • Iran (‫ایران‬‎)+98
  • Iraq (‫العراق‬‎)+964
  • Ireland+353
  • Isle of Man+44
  • Israel (‫ישראל‬‎)+972
  • Italy (Italia)+39
  • Jamaica+1
  • Japan (日本)+81
  • Jersey+44
  • Jordan (‫الأردن‬‎)+962
  • Kazakhstan (Казахстан)+7
  • Kenya+254
  • Kiribati+686
  • Kosovo+383
  • Kuwait (‫الكويت‬‎)+965
  • Kyrgyzstan (Кыргызстан)+996
  • Laos (ລາວ)+856
  • Latvia (Latvija)+371
  • Lebanon (‫لبنان‬‎)+961
  • Lesotho+266
  • Liberia+231
  • Libya (‫ليبيا‬‎)+218
  • Liechtenstein+423
  • Lithuania (Lietuva)+370
  • Luxembourg+352
  • Macau (澳門)+853
  • Macedonia (FYROM) (Македонија)+389
  • Madagascar (Madagasikara)+261
  • Malawi+265
  • Malaysia+60
  • Maldives+960
  • Mali+223
  • Malta+356
  • Marshall Islands+692
  • Martinique+596
  • Mauritania (‫موريتانيا‬‎)+222
  • Mauritius (Moris)+230
  • Mayotte+262
  • Mexico (México)+52
  • Micronesia+691
  • Moldova (Republica Moldova)+373
  • Monaco+377
  • Mongolia (Монгол)+976
  • Montenegro (Crna Gora)+382
  • Montserrat+1664
  • Morocco (‫المغرب‬‎)+212
  • Mozambique (Moçambique)+258
  • Myanmar (Burma) (မြန်မာ)+95
  • Namibia (Namibië)+264
  • Nauru+674
  • Nepal (नेपाल)+977
  • Netherlands (Nederland)+31
  • New Caledonia (Nouvelle-Calédonie)+687
  • New Zealand+64
  • Nicaragua+505
  • Niger (Nijar)+227
  • Nigeria+234
  • Niue+683
  • Norfolk Island+672
  • North Korea (조선 민주주의 인민 공화국)+850
  • Northern Mariana Islands+1670
  • Norway (Norge)+47
  • Oman (‫عُمان‬‎)+968
  • Pakistan (‫پاکستان‬‎)+92
  • Palau+680
  • Palestine (‫فلسطين‬‎)+970
  • Panama (Panamá)+507
  • Papua New Guinea+675
  • Paraguay+595
  • Peru (Perú)+51
  • Philippines+63
  • Poland (Polska)+48
  • Portugal+351
  • Puerto Rico+1
  • Qatar (‫قطر‬‎)+974
  • Réunion (La Réunion)+262
  • Romania (România)+40
  • Russia (Россия)+7
  • Rwanda+250
  • Saint Barthélemy+590
  • Saint Helena+290
  • Saint Kitts and Nevis+1869
  • Saint Lucia+1758
  • Saint Martin (Saint-Martin (partie française))+590
  • Saint Pierre and Miquelon (Saint-Pierre-et-Miquelon)+508
  • Saint Vincent and the Grenadines+1784
  • Samoa+685
  • San Marino+378
  • São Tomé and Príncipe (São Tomé e Príncipe)+239
  • Saudi Arabia (‫المملكة العربية السعودية‬‎)+966
  • Senegal (Sénégal)+221
  • Serbia (Србија)+381
  • Seychelles+248
  • Sierra Leone+232
  • Singapore+65
  • Sint Maarten+1721
  • Slovakia (Slovensko)+421
  • Slovenia (Slovenija)+386
  • Solomon Islands+677
  • Somalia (Soomaaliya)+252
  • South Africa+27
  • South Korea (대한민국)+82
  • South Sudan (‫جنوب السودان‬‎)+211
  • Spain (España)+34
  • Sri Lanka (ශ්‍රී ලංකාව)+94
  • Sudan (‫السودان‬‎)+249
  • Suriname+597
  • Svalbard and Jan Mayen+47
  • Swaziland+268
  • Sweden (Sverige)+46
  • Switzerland (Schweiz)+41
  • Syria (‫سوريا‬‎)+963
  • Taiwan (台灣)+886
  • Tajikistan+992
  • Tanzania+255
  • Thailand (ไทย)+66
  • Timor-Leste+670
  • Togo+228
  • Tokelau+690
  • Tonga+676
  • Trinidad and Tobago+1868
  • Tunisia (‫تونس‬‎)+216
  • Turkey (Türkiye)+90
  • Turkmenistan+993
  • Turks and Caicos Islands+1649
  • Tuvalu+688
  • U.S. Virgin Islands+1340
  • Uganda+256
  • Ukraine (Україна)+380
  • United Arab Emirates (‫الإمارات العربية المتحدة‬‎)+971
  • United Kingdom+44
  • United States+1
  • Uruguay+598
  • Uzbekistan (Oʻzbekiston)+998
  • Vanuatu+678
  • Vatican City (Città del Vaticano)+39
  • Venezuela+58
  • Vietnam (Việt Nam)+84
  • Wallis and Futuna (Wallis-et-Futuna)+681
  • Western Sahara (‫الصحراء الغربية‬‎)+212
  • Yemen (‫اليمن‬‎)+967
  • Zambia+260
  • Zimbabwe+263
  • Åland Islands+358
Captcha refresh
loader
Insights Image

Request A FREE Sample PDF

Captcha refresh
loader

Join Our Newsletter

Get the latest news on our products, services, discounts, and special offers delivered directly to your mailbox.

footer logo

Global Growth Insights
Office No.- B, 2nd Floor, Icon Tower, Baner-Mhalunge Road, Baner, Pune 411045, Maharashtra, India.

Useful Links

  • HOME
  • ABOUT US
  • TERMS OF SERVICE
  • PRIVACY POLICY

Our Contacts

Toll-Free Numbers:
US : +1 (855) 467-7775
UK : +44 8085 022397

Email:
 sales@globalgrowthinsights.com

Connect With Us

Twitter

footer logo

© Copyright 2024 Global Growth Insights. All Rights Reserved | Powered by Absolute Reports.
×
We use cookies.

to enhance your experience.

More info.
  • Industries
    •   Information & Technology
    •   Healthcare
    •   Machinery & Equipment
    •   Automotive & Transportation
    •   Food & Beverages
    •   Energy & Power
    •   Aerospace & Defense
    •   Agriculture
    •   Chemicals & Materials
    •   Architecture
    •   Consumer Goods
  • Blogs
  • About
  • Contact