The optic nerve sheath is a continuation of the dura mater, extending along the subarachnoid space surrounding the optic nerve. Consequently, changes in intracranial pressure cause an augmentation or contraction in the diameter of the optic nerve sheath, which is coreleted with intracranial pressure. Participants undergoing lower extremity operations (ankle, distal tibia and fibula surgeries) using a tourniquet under spinal anesthesia will be investigated. Spinal anesthesia will be performed with a 25 G Whitacre, 25 G Quincke, or 27 G Quincke needle, depending on the study group. Optic nerve sheath diameter (ONSD) measurements will be performed before spinal anesthesia; and 5 minutes, 15 minutes,,24 hours after spinal block, respectively.The 4th measurement will be performed after tourniquet is opened. Measurements will be done with 15 MHz linear ultrasound (US) probe in B mode, 3 mm behind the posterior globe in the transverse plane from both eyes, on upper eyelid. Values will be recorded numerically. The impact of spinal anesthesia administered using various needle designs (Quincke and Whitacre) and sizes (25G-27G) on intracranial pressure will be investigated.
Optic nerve sheath diameter (ONSD) measured with US emerges as a standout intracranial pressure reflector among non-invasive modalities as a bed side assessment. Different types of needles used in spinal anesthesia cause different lesions in the dura. Lesions created by Quincke needles are small and clean-cut opening in the dural membrane, while those from Whitacre needles result in a more traumatic opening. Also it is known that CSF leakage increase when larger needles are used. As one of postspinal headache mechanism is decrease in the intracranial pressure, the investigators aim to investigate the ONSD changes reflecting intracranial pressure changes. Participants undergoing lower extremity operations (ankle, distal tibia and fibula surgeries) using a tourniquet under spinal anesthesia will be investigated. Spinal anesthesia will be performed with a 25 G Whitacre, 25 G Quincke, or 27 G Quincke needle, depending on the study group. ONSD measurements will be performed before spinal anesthesia as baseline; and 5 minutes, 15 minutes, 24 hours after spinal block, respectively. Also a measurement will be performed after opening of the surgical tourniquet. Measurements will be done with 15 MHz linear ultrasound (US) probe in B mode, 3 mm behind the posterior globe in the transverse plane from both eyes. Values will be recorded numerically. The impact of spinal anesthesia administered using various needle designs (Quincke and Whitacre) and sizes (25G-27G) on intracranial pressure will be investigated.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
TRIPLE
Enrollment
165
Spinal anesthesia will be performed in sitting position, with 25 G pencil point needle (Whitacre -Egemen®) midline through the L4-5 or L5-S1 interspace, parallel to the dural fibers. Upon clear cerebrospinal fluid (CSF) detection, the needle apertures will be turned towards the cephalad direction, and 3 ml (15 mg) of 0.5% hyperbaric bupivacaine (Marcaine Heavy ®) will be injected into the intrathecal space.
Spinal anesthesia will be performed in sitting position, with 25 G sharp edge needle (Quincke -Egemen®) midline through the L4-5 or L5-S1 interspace, parallel to the dural fibers. Upon clear cerebrospinal fluid (CSF) detection, the needle apertures will be turned towards the cephalad direction, and 3 ml (15 mg) of 0.5% hyperbaric bupivacaine (Marcaine Heavy ®) will be injected into the intrathecal space.
Spinal anesthesia will be performed in sitting position, with 27 G sharp edge needle (Quincke -Egemen®) midline through the L4-5 or L5-S1 interspace, parallel to the dural fibers. Upon clear cerebrospinal fluid (CSF) detection, the needle apertures will be turned towards the cephalad direction, and 3 ml (15 mg) of 0.5% hyperbaric bupivacaine (Marcaine Heavy ®) will be injected into the intrathecal space.
Sonographic measurement of ONSD (EsaoteMyLabFive, Cenova, Italy) for all patients will be performed by a single experienced anesthesiologist. After a thin gel layer apply to the upper eyelid, the patient in the supine position and with the eyes closed, using a 6-13 MHz linear probe, optic sheath nerve measurement will be done 3 mm behind the optic globe, with a total of three measurements of which the final value will be recorded.The measurement will be repeated five times using US guidance at the following time points: T0 (pre-anesthesia), T1 (5 minutes after spinal block), T2 (15 minutes after spinal block, T3 (tourniquet opening), and T4 (24 hours after spinal block ) respectively.
Bagcılar Training Research Hospital
Istanbul, Bagci̇lar, Turkey (Türkiye)
Optic nerve sheath diameter
The primary aim is to compare optic nerve sheath diameter (ONSD) according to the spinal needle type and size
Time frame: ONSD changes from baseline, at 5 minutes, 15 minutes, 24 hours after spinal anesthesia and opening the tourniquet
Blood pressure
The effect of needle type and size on blood pressure
Time frame: Changes from baseline, at 5 minutes, 15 minutes, 24 hours after spinal anesthesia and opening the tourniquet
Hearth rate
The effect of needle type and size on hearth rate
Time frame: Changes from baseline, at 5 minutes, 15 minutes, 24 hours after spinal anesthesia and opening the tourniquet
Oxygen saturation
The effect of needle type and size on oxygen saturation
Time frame: Changes from baseline, at 5 minutes, 15 minutes, 24 hours after spinal anesthesia and opening the tourniquet
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