Compression Bandaging

Original Editor - Alicia Fernandes Top Contributors - Alicia Fernandes, Kim Jackson and Ewa Jaraczewska

Introduction[edit | edit source]

Compression bandaging is a vital aspect of physiotherapy interventions, particularly in the management of edema and venous insufficiency. This article aims to explore the techniques, uses, indications, and red flags associated with compression bandaging.

Types of Compressive Bandages[edit | edit source]

1. Elastic Bandages:

  •    Description: Elastic bandages are commonly used for providing compression and support to injured or strained areas.
  •    Material:Typically made of stretchable fabric such as cotton, polyester, or a blend.
  •    Application:Applied with varying degrees of tension, these bandages conform to the body's shape and provide adjustable compression.
  • Use Cases: Suitable for sprains, strains, edema management, and securing dressings.[1]

2. Crepe Bandages:

  •   Description: Crepe bandages are woven with a crinkled texture, providing moderate compression and support.
  •   Material:Made from cotton or a cotton-polyester blend.
  • Application: Applied with moderate tension, crepe bandages are effective for securing dressings and providing light to moderate compression.
  • Use Cases:Often used for joint support, strains, and minor injuries.[2]

5. Multi-layer Compression Bandages:

Multilayered bandaging involves the application of several layers of compression bandages to effectively manage venous leg ulcers. These layers typically include padding, a crepe bandage, and cohesive or adhesive bandages.

  • Padding:The first layer consists of a soft padding material, such as orthopedic wool or foam, which provides cushioning and protection to the wound site.
  • Crepe Bandage:Over the padding, a crepe bandage is applied to provide initial compression and support. Crepe bandages are elastic and conform well to the shape of the leg, helping to maintain consistent pressure.
  • Cohesive or Adhesive Bandages:Finally, cohesive or adhesive bandages are applied over the crepe bandage to provide additional compression and secure the layers in place. These bandages adhere to themselves without the need for pins or clips, ensuring that the compression remains uniform.

The multilayered bandaging technique aims to promote venous return, reduce edema, and facilitate wound healing by applying graduated compression to the affected limb. This method has been found to be effective in managing venous leg ulcers and preventing recurrence.[3]

Understanding Compressive Bandages: Short Stretch vs. Long Stretch[edit | edit source]

Long-Stretch Bandages:

  • Elasticity:Long-stretch bandages are composed of elastic materials with high elongation capacity (exceeding 100%).
  • Resting Pressure:They offer less tolerable resting pressure compared to short-stretch bandages.
  • Continuous Pressure: Long-stretch bandages provide continuous pressure during movement and exercise.
  • Smooth Application:Due to their elastane filament composition, long-stretch bandages offer smooth application and conformability, making them suitable for daily wear.
  • Ideal for Mobile Patients: They excel in sustaining pressure during movement, making them ideal for patients who are active.
  • Usge:Long-stretch bandages are commonly used for conditions where continuous pressure during movement is required, but they may be less effective in managing edema compared to short-stretch bandages.

Short-Stretch Bandages:

  • Material: Short-stretch bandages are composed of non-elastic or rigid materials with an elongation capacity ranging from 10% to 100%.
  • Pressure:They exert higher working pressures compared to long-stretch bandages.
  • Resting Pressure: Short-stretch bandages have low resting pressure and high working pressure.
  • Tissue Hydrostatic Pressure:These bandages effectively limit the available space for fluid accumulation and promote tissue hydrostatic pressure.
  • Fluid Drainage: Short-stretch bandages facilitate fluid drainage, reinforce tissue hydrostatic pressure, and improve venous and lymphatic flow.
  • Usage: Short-stretch bandages are preferred for conditions where high working pressure is required, such as managing edema and promoting venous return.

[4][5]

Techniques[edit | edit source]

Based on the literature review conducted by Fulcher and Gopee (2020), various techniques of compression bandaging were identified, particularly focusing on four-layer and two-layer compression systems for the treatment of venous leg ulcers (VLUs). The study found that the four-layer compression system was favored in terms of providing better healing rates for VLUs compared to the two-layer system. However, it was noted that the two-layer bandaging technique tended to offer a better quality of life for patients and may be more cost-effective.

Different techniques within these compression systems include:

  • Four-layer Compression Bandaging:This technique involves the application of multiple layers of bandages, typically comprising a non-adherent wound contact layer, a padding layer, a light compression layer, and a final high-compression layer.
  •  Two-layer Compression Bandaging: In contrast to the four-layer system, the two-layer technique involves the application of only two layers of compression bandages, usually consisting of a padding layer and a cohesive compression layer.

Other potential techniques and considerations in compression bandaging may include:

  • Application Technique: Proper application techniques are crucial to ensure uniform pressure distribution and prevent constriction or discomfort.
  • Choice of Material:The type of materials used in the bandages, such as elastic or non-elastic materials, can influence the effectiveness and comfort of the compression therapy.
  • Bandage Configuration: Variations in bandage configurations, such as the number of wraps, tension applied during application, and overlap of layers, can impact the efficacy of compression therapy.

Overall, the selection of a specific compression bandaging technique should be guided by factors such as the patient's condition, preferences, comorbidities, cost considerations, and the desired outcomes in terms of healing rates and quality of life.[6]

Uses[edit | edit source]

Management of Venous Insufficiency:Compression bandaging is commonly used in the management of conditions such as venous insufficiency and venous leg ulcers by applying external pressure to the limb, promoting venous return, and reducing edema.

Promotion of Wound Healing: Compression bandaging helps in promoting wound healing by improving tissue oxygenation, facilitating the removal of excess interstitial fluid, and enhancing the delivery of nutrients to the wound site.

Prevention of Recurrence: Compression bandaging plays a crucial role in preventing the recurrence of venous leg ulcers by maintaining adequate pressure on the limb, preventing venous pooling, and minimizing the risk of further tissue damage.

Edema Management: Compression bandaging is effective in managing edema associated with various conditions such as lymphedema, post-surgical swelling, and traumatic edema by assisting in fluid mobilization and drainage.

Supportive Therapy:Compression bandaging can provide support and stability to the affected limb, particularly in individuals with compromised mobility or muscle weakness, aiding in functional rehabilitation.

Enhanced Patient Comfort: Properly applied compression bandages can alleviate discomfort associated with swelling and improve overall patient comfort and mobility[7].

Red Flags[edit | edit source]

While compression bandaging is generally safe, certain red flags warrant attention:

  • Arterial Disease Patients with severe arterial disease, such as arterial insufficiency or peripheral artery disease (PAD), are identified as having a contraindication to medical compression treatment. Compression therapy in these patients can exacerbate ischemia and compromise arterial blood flow.
  • Acute Deep Vein Thrombosis (DVT):n patients with acute DVT, particularly during the acute phase of the condition. Compression therapy in this context can dislodge thrombi and increase the risk of embolization or other complications.
  • Untreated or Uncontrolled Infection: Patients with untreated or uncontrolled infections in the affected limb should not undergo compression therapy. Compression bandaging over infected areas can promote bacterial growth and exacerbate inflammation.
  • Skin Conditions: Patients with compromised skin integrity, such as dermatitis or open wounds, may experience further damage or irritation from compression therapy. Careful assessment of skin condition is essential before initiating compression treatment.
  • Peripheral Neuropathy: Patients with peripheral neuropathy, particularly those with diminished sensation or neuropathic ulcers, are at increased risk of pressure-related injuries from compression therapy. Close monitoring is necessary to prevent complications in these patients.[8]

Contraindications[edit | edit source]

In addition to arterial insufficiency, acute deep vein thrombosis, and severe peripheral neuropathy, contraindications to compression bandaging may include:

  • Compromised skin integrity such as dermatitis, open wounds, or fragile skin.
  • Acute inflammatory conditions where compression may exacerbate swelling and pain.
  • Allergic reactions to bandage materials, adhesive components, or topical agents used under the bandage [9].

Monitoring and Evaluation[edit | edit source]

Monitoring and evaluation of patients undergoing compression therapy involve:

  • Regular assessment of limb circumference, comparing measurements over time to track changes in edema.
  • Evaluation of skin condition beneath the bandage for signs of pressure damage, irritation, or allergic reactions.
  • Subjective assessment of patient-reported symptoms such as pain, discomfort, or changes in sensation.
  • Utilization of objective measures like ankle-brachial pressure index (ABPI) to assess vascular status and ensure adequate perfusion [10]

Patient Education[edit | edit source]

Patient education in compression bandaging should encompass:

  • Proper limb elevation techniques to enhance venous return and reduce edema.
  • Skin care practices including moisturization, hygiene, and protection against trauma.
  • Recognition of warning signs such as increased pain, numbness, tingling, skin changes, or temperature abnormalities, warranting prompt medical attention.
  • Instructions on bandage care, including hygiene, avoidance of excessive moisture, and proper reapplication techniques .

Advanced Techniques and Modalities[edit | edit source]

Advanced techniques and modalities in compression therapy may include:

  • Intermittent pneumatic compression devices (IPC) which intermittently apply and release pressure to the limb, enhancing venous return and lymphatic drainage.
  • Multi-layer compression systems combining different materials and bandage layers to provide graduated compression and optimal pressure distribution.
  • Custom-made compression garments tailored to individual patient needs and anatomical considerations, offering a precise fit and enhanced comfort.
  • Neuromuscular electrical stimulation (NMES) applied concurrently with compression therapy to improve muscle pump function and enhance fluid mobilization [11]

Safety Considerations in Compression Bandaging for Lymphedema Treatment[edit | edit source]

While compression bandaging is considered a cornerstone in the management of lymphedema, it is essential to recognize the potential risks associated with its application by untrained clinicians. Improperly applied compression can lead to adverse effects, including skin damage, circulation impairment, and exacerbation of lymphatic fluid buildup.

This highlights the critical importance of proper training and expertise in compression bandaging techniques. Clinicians should undergo comprehensive education and hands-on training to ensure proficiency in assessing patient needs, selecting appropriate bandaging materials, and applying optimal pressure levels. Moreover, regular monitoring and evaluation during treatment are vital to detect any complications early on and adjust the bandaging regimen accordingly.

By prioritizing safety and expertise in compression bandaging, healthcare providers can maximize the therapeutic benefits while minimizing the risks for patients with lymphedema[12].[13]

Conclusion[edit | edit source]

In summary, compression bandaging is a fundamental aspect of physiotherapy, vital for managing edema and venous insufficiency. Various types and techniques exist, each with specific applications and considerations. While effective, improper application by untrained clinicians can pose risks, emphasizing the importance of safety measures and expertise. Future advancements hold promise for improved outcomes and accessibility. Overall, compression bandaging remains indispensable in enhancing patient care and quality of life.

Reference[edit | edit source]

  1. Choucair M, Phillips TJ. Compression therapy. Dermatol Surg. 1998;24:141–8.
  2. Morison MJ. London: Wolfe; 1992. A Colour Guide to the Nursing Management of Wounds
  3. Nair, B. (2014). Compression therapy for venous leg ulcers. Indian Dermatology Online Journal, 5(3), 378–382. doi: 10.4103/2229-5178.137822.
  4. Aboalasaad, A. R. R., Sirková, B. K., Bílá, P., & Khalil, A. A. S. (Year of publication). Comparative study of long- and short-stretch woven compression bandages. Technologies and Structures Department, Technical University of Liberec, Liberec 46117, Czech Republic. Department of Textile Evaluation, Technical University of Liberec, Liberec 46117, Czech Republic. *Corresponding author: Aboalasaad, A. R. R. Email: [email protected].
  5. Santandrea, S., Benassi, M., & Tedeschi, R. (2023). Comparison of short-stretch bandage and long-stretch bandage for post-traumatic hand edema. International Journal of Surgery Case Reports, 111, 108854. https://doi.org/10.1016/j.ijscr.2023.108854
  6. Fulcher E, Gopee N. Effect of different compression bandaging techniques on the healing rate of venous leg ulcers: a literature review. Br J Community Nurs. 2020;25(Sup6):S20. doi: 10.12968/bjcn.2020.25.Sup6.S20
  7. Feben, K. (2013). How effective is training in compression bandaging technique? British Journal of Community Nursing, 8(2). doi: 10.12968/bjcn.2003.8.2.11091.
  8. Rabe E, Partsch H, Morrison N, Meissner MH, Mosti G, Lattimer CR, Carpentier PH, Gaillard S, Jünger M, Urbanek T, Hafner J, Patel M, Wu S, Caprini J, Lurie F, Hirsch T. Risks and contraindications of medical compression treatment – A critical reappraisal. An international consensus statement. Phlebology. 2020 Aug;35(7):447–460. doi: 10.1177/0268355520909066. PMID: 32122269; PMCID: PMC7383414.
  9. Partsch, H. (2008). Compression therapy: clinical and experimental evidence. *Annals of Vascular Diseases*, 1(1), 16-20.
  10. Mayrovitz, H. N. (2010). The standard of care for lymphedema: current concepts and physiological considerations. *Lymphatic Research and Biology*, 8(1), 9-10.
  11. O'Brien, J., Edwards, H., Stewart, I., & Gibbs, H. (2001). A comparison of 2 types of compression bandage for the treatment of venous leg ulceration. *Archives of Dermatology*, 137(12), 1631-1636.
  12. Ko DS, Lerner R, Klose G, et al. Effective treatment of lymphedema of the extremities. *Arch Surg*. 1998;133(4):452-458. [PubMed PMID: 9565122].
  13. Moffatt CJ, Franks PJ, Doherty DC, et al. Lymphoedema: an underestimated health problem. *QJM*. 2003;96(10):731-738. [PubMed PMID: 14500879].
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