15 minutes before the procedure, nurses (FEÖ and NT) will explain and demonstrate how to use the stress ball. The stress ball will be applied for approximately five minutes, including the chest tube removal procedure. A round, medium-hard, high-quality silicone ball, approximately 6 cm in diameter, will be used. Patients will be asked to hold the ball in their palms, count to three, squeeze, and release once. Patients will be instructed to continue this exercise until the chest tube removal procedure is completed, and then, under the supervision of the researcher, for approximately five minutes, focusing their attention on the stress ball. The ball will be washed and cleaned after each use and wiped with disposable asepsis wipes before being administered to the patient. The control group will not receive any other treatment beyond routine treatment and will be assessed at the same time as the study group. The chest tube will be removed by a physician during the stress ball application. Procedural pain level, anxiety level and hemodynamic variables of all patients in the study and control groups will be re-evaluated immediately after chest tube removal and 15 and 30 minutes after chest tube removal.
Chest tubes are routinely removed on the second or third postoperative day in patients in the Cardiovascular Surgery Intensive Care Unit, and patients with stable hemodynamic variables are discharged to the clinic. Morphine (0.01 mg) and paracetamol (if necessary) are used for routine analgesic treatment during the intensive care unit. Data will be collected between September 1, 2025, and September 1, 2026. Before the stress ball application after open heart surgery, participants in the control and study groups will be asked to complete the Descriptive Characteristics Form, VAS, VAS-A, and Hemodynamic Variables Monitoring Form. The Hemodynamic Variables Monitoring Form will be completed by the researcher (F.E.Ö) while monitoring the patient on the bedside monitor (Nihon Kohden, Tokyo). Participants who complete the Descriptive Characteristics Form, VAS, and VAS-A, and whose hemodynamic parameters are recorded, will be administered the stress ball application by Firdevs Ebru Özdemir and Nesrin Temiz.In addition to the clinic's routine treatment and care, patients in the study group will receive a stress ball during chest tube removal. 15 minutes before the procedure, nurses (FEÖ and NT) will explain and demonstrate how to use the stress ball. The stress ball will be applied for approximately five minutes, including the chest tube removal procedure. A round, medium-hard, high-quality silicone ball, approximately 6 cm in diameter, will be used. Patients will be asked to hold the ball in their palms, count to three, squeeze, and release once. Patients will be instructed to continue this exercise until the chest tube removal procedure is completed, and then, under the supervision of the researcher, for approximately five minutes, focusing their attention on the stress ball. The ball will be washed and cleaned after each use and wiped with disposable asepsis wipes before being administered to the patient. The control group will not receive any other treatment beyond routine treatment and will be assessed at the same time as the study group. The chest tube will be removed by a physician during the stress ball application. Procedural pain level, anxiety level and hemodynamic variables of all patients in the study and control groups will be re-evaluated immediately after chest tube removal and 15 and 30 minutes after chest tube removal.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
SINGLE
Enrollment
46
Recently, the use of non-pharmacological methods applied by nurses has become increasingly widespread. One independent nursing practice for reducing pain and anxiety is the stress ball. A stress ball, one of these non-pharmacological methods, utilizes the sense of touch to divert attention and cognitive focus. This simple, reliable, and low-cost method reduces pain and anxiety by directing the mind to a salient stimulus.
Turkey, Mersin University,
Yenişehir, Mersin, Turkey (Türkiye)
RECRUITINGParticipants' pain levels with stress ball application
Visual Analog Scale (VAS): Developed by Freyd (1923), the VAS is a single, 10-cm-long scale that can be used vertically or horizontally to assess pain levels. A generally accepted, reliable, and easily applicable scale, the VAS consists of a 10-cm-long line with subjective descriptive statements at either end of the scale (0 cm = none at all and 10 cm = maximum presence). The individual places a mark on this 10-cm line at the appropriate location on the scale. The distance from the beginning of the scale to the mark is measured with a ruler, and the individual's pain level is numerically determined in cm.
Time frame: Before, immediately after, 15 minutes and 30 minutes after chest tube removal
anxiety
The VAS-A was developed to convert numerical values that cannot be measured numerically. A generally accepted, reliable, and easily applicable measurement tool in the world literature, the VAS consists of a 10-cm-long line with subjective descriptive statements at either end (0 cm = not present at all and 10 cm = most present). Research has shown that the VAS-A has been used to assess anxiety in patients before surgical interventions. Individuals place a mark at the appropriate location on this 10-cm line. The distance from the beginning of the scale to the mark is measured with a ruler, and the individual's anxiety level is numerically determined in cm. A low score on the VAS-A indicates a low/mild anxiety level, while a high score indicates a high/severe anxiety level.
Time frame: Before, immediately after, 15 minutes and 30 minutes after chest tube removal
Systolic blood pressure changes after stress ball
This form will record the systolic blood pressure, diastolic blood pressure, heart rate, respiratory rate, and oxygen saturation values of the study and control groups measured at the specified times. Hemodynamic variables will be monitored and recorded using a bedside monitor (Nihon Kohden, Tokyo). To ensure data reliability and accuracy, these monitors are calibrated monthly by the biomedical engineering department, in accordance with hospital policy.
Time frame: Before, immediately after, 15 minutes and 30 minutes after chest tube removal
Diastolic blood pressure changes after stress ball
This form will record the systolic blood pressure, diastolic blood pressure, heart rate, respiratory rate, and oxygen saturation values of the study and control groups measured at the specified times. Hemodynamic variables will be monitored and recorded using a bedside monitor (Nihon Kohden, Tokyo). To ensure data reliability and accuracy, these monitors are calibrated monthly by the biomedical engineering department, in accordance with hospital policy.
Time frame: Before, immediately after, 15 minutes and 30 minutes after chest tube removal
Heart rate changes after stress ball
This form will record the systolic blood pressure, diastolic blood pressure, heart rate, respiratory rate, and oxygen saturation values of the study and control groups measured at the specified times. Hemodynamic variables will be monitored and recorded using a bedside monitor (Nihon Kohden, Tokyo). To ensure data reliability and accuracy, these monitors are calibrated monthly by the biomedical engineering department, in accordance with hospital policy.
Time frame: Before, immediately after, 15 minutes and 30 minutes after chest tube removal
Respiratory rate changes after stress ball
This form will record the systolic blood pressure, diastolic blood pressure, heart rate, respiratory rate, and oxygen saturation values of the study and control groups measured at the specified times. Hemodynamic variables will be monitored and recorded using a bedside monitor (Nihon Kohden, Tokyo). To ensure data reliability and accuracy, these monitors are calibrated monthly by the biomedical engineering department, in accordance with hospital policy.
Time frame: Before, immediately after, 15 minutes and 30 minutes after chest tube removal
Oxygen saturation values changes after stress ball
This form will record the systolic blood pressure, diastolic blood pressure, heart rate, respiratory rate, and oxygen saturation values of the study and control groups measured at the specified times. Hemodynamic variables will be monitored and recorded using a bedside monitor (Nihon Kohden, Tokyo). To ensure data reliability and accuracy, these monitors are calibrated monthly by the biomedical engineering department, in accordance with hospital policy.
Time frame: Before, immediately after, 15 minutes and 30 minutes after chest tube removal
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