123764 Here

In scientific research and scholarly publishing, the number often serves as a specific article identifier (such as an article ID or ELOCATOR). Currently, this number is most prominently associated with two significant peer-reviewed studies: one focusing on minimally invasive spinal surgery and another on geothermal energy technology . 1. Advancements in Spinal Surgery (Minimally Invasive TLIF)

: This research is critical for neuroscientists trying to map how the human brain processes visual information, offering "deeper" clarity in source estimation techniques. 123764

: The article details how advanced minimally invasive techniques can drastically reduce blood loss, potentially eliminating the need for transfusions in lumbar fusion patients—a major step forward in postoperative recovery and patient safety. 2. Deep Borehole Heat Exchangers (Geothermal Energy) In scientific research and scholarly publishing, the number

: Entitled "The Potential Elimination of Blood Transfusions in Lumbar Spine Fusion Surgery," researchers Chanan R. Batra and Sanjay Ghosh analyzed 620 consecutive minimally invasive Transforaminal Lumbar Interbody Fusion (TLIF) surgeries. Advancements in Spinal Surgery (Minimally Invasive TLIF) :

: Titled "Effect of heat and mass transfer related parameters on the performance of deep borehole heat exchangers," authored by Andreas E.D. Lund.

: As the world shifts toward sustainable energy, this "deep" article explores the complex physics of extracting geothermal heat from deep within the earth. It examines how specific variables—like liquid circulation speed and pipe insulation—impact the efficiency of deep-buried heat exchangers. 3. Improving Brain Imaging (Retinotopic MEG)

In the field of orthopedics, refers to a landmark case series published in the Journal of Orthopaedic Experience & Innovation .