Abstract
Background Spinal anesthesia is the preferred anesthetic technique for lower limb orthopedic surgeries due to its efficacy, rapid onset, and favorable safety profile. While bupivacaine has long been considered the gold standard, its cardiovascular side effects have prompted interest in ropivacaine, a newer agent with a better safety margin. This study compares the sensory-motor block characteristics and hemodynamic stability of hyperbaric ropivacaine (0.75%) and bupivacaine (0.5%) in spinal anesthesia. Methods A prospective, randomized, double-blind trial was conducted on 100 patients undergoing elective lower limb orthopedic surgeries. Participants were equally assigned to receive either 3 mL of 0.75% hyperbaric ropivacaine or 3 mL of 0.5% hyperbaric bupivacaine intrathecally. Primary outcomes included onset time, duration, and intensity of sensory and motor block. Secondary measures included hemodynamic parameters (blood pressure, heart rate), time to first rescue analgesia, and incidence of adverse effects. Data were analyzed using t-tests, chi-square tests, and effect size estimation. Results Bupivacaine exhibited faster sensory (2.96 vs. 3.60 min, p<0.001) and motor block onset (4.68 vs. 5.29 min, p<0.001), and longer motor block duration (152.5 vs. 126.3 min, p<0.001) compared to ropivacaine. However, ropivacaine offered better hemodynamic stability, with significantly fewer hypotensive and bradycardic episodes (p<0.05). The duration of sensory block was slightly shorter with ropivacaine (188.2 vs. 190.0 min; p=0.019), though block intensity was higher (80.1% vs. 74.0%; p=0.012). Time to first analgesic request was significantly longer with bupivacaine (205.1 vs. 152.7 min; p<0.001). Discussion The results confirm that bupivacaine is superior in block onset and duration but at the cost of increased cardiovascular side effects. Ropivacaine, while slightly slower in onset and shorter in motor duration, maintains comparable analgesia with significantly enhanced hemodynamic stability, making it preferable in high-risk cardiovascular patients or for short-duration surgeries requiring early mobilization. Conclusion This study highlights that while bupivacaine is suited for long-duration surgeries, ropivacaine is preferable for shorter procedures or patients with cardiovascular risks, offering enhanced hemodynamic stability and safety. Further research is needed to explore dose-response relationships and the long-term outcomes of these anesthetics.