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UnknownNCT06113250

Effect of Shortwave Diathermy Versus Ultrasound Waves on Increasing ROM and Decreasing Pain After Extensor Tendon Reconstruction

Effect of Shortwave Diathermy Versus Ultrasound Waves on Increasing Rom and Decreasing Pain After Extensor Tendon Reconstruction

Status
Unknown
Phase
Phase 2
Study type
Interventional
Enrollment
60 (actual)
Sponsor
Kafrelsheikh University · Academic / Other
Sex
All
Age
22 Years – 29 Years
Healthy volunteers
Accepted

Summary

tendon injuries can result in long-term sequelae, including chronic pain and mobility restrictions, and may warrant surgery. Ultrasound is sound with a frequency above 20,000 Hertz (Hz) and is undetectable by the human ear. Ultrasound waves are generated by a piezoelectric effect caused by vibration of crystals within the head of the wand/probe. The sound waves that pass through the skin cause vibration of the local tissue. This can cause a deep heating locally. ultrasound can provide several benefits for treating strains, sprains, tissue healing andpain.n Shortwave diathermy is a high frequency current that is obtained by a discharging condenser through inductance of low ohmic resistance. When this high frequency current passes into the tissues, it produces heat into the tissues. PSWD heats a much larger area than ultrasound does, making it ideal to heat larger joints, such as the elbow, shoulder, hip, knee, and ankle. This work aims to compare between the effect of shortwave diathermy versus ultrasound waves on increasing ROM and decreasing pain after extensor tendon reconstruction. Sixty adults patients of both sex, aged from 20 to 30 years, with extensor tendon injuries participated in this study after reconstruction surgeries. They were randomly categorized into three groups of equal numbers. Group A received Pulsed shortwave diathermy and traditional physical therapy program (splinting, stretching exercises, strengthening exercises and range of motion (ROM) exercises), group B received ultrasound waves and traditional physical therapy program (splinting, stretching exercises, strengthening exercises and range of motion (ROM) exercises, while group C received only traditional physical therapy program (splinting, stretching exercises, strengthening exercises and range of motion (ROM) exercises). Pain and finger flexion range of motion will be measured before and after two months of intervention. Data and results will be statistically analyzed to give conclusions

Conditions

Interventions

TypeNameDescription
DEVICEshortwave diathermyShortwave diathermy (SWD) is a modality that produces heat by converting electromagnetic energy into thermal energy. pulsed shortwave diathermy (PSWD), uses high-frequency electromagnetic waves to heat tissues up to 5 cm deep. Heat is produced by the resistance of tissue to the passage of energy. Although it heats to the same depth as 1-MHz ultrasound, PSWD heats a much larger area than ultrasound does, making it ideal to heat larger joints, such as the elbow, shoulder, hip, knee, and ankle
DEVICEultrasound wavesUltrasound is sound with a frequency above 20,000 Hertz (Hz) and is undetectable by the human ear. However, clinical ultrasound uses much high frequencies of between 1 and 20 megahertz (MHz) and sometimes up to 75 MHz in specialized areas such as dermatology and ophthalmology. Clinically, ultrasound is used for a number of applications ranging from visualizing structures to allow safe insertion of lines and catheters to diagnostic imaging including the assessment of the movement of cardiac Production of ultrasound waves is the first part of the clinical ultrasound process. Ultrasound is generated by piezoelectric crystals. These crystalline materials contain randomly oriented electric dipoles, and when a force is applied that deforms the crystal, the dipoles are rearranged and a net charge induced across the crystal
OTHERtraditional physical therapy programsplinting, stretching exercises, strengthening exercises and range of motion (ROM) exercises

Timeline

Start date
2023-07-05
Primary completion
2023-11-01
Completion
2023-11-07
First posted
2023-11-02
Last updated
2023-11-02

Locations

1 site across 1 country: Egypt

Source: ClinicalTrials.gov record NCT06113250. Inclusion in this directory is not an endorsement.