1.Biportal Endoscopic Spine Surgery for Epidural Metastatic Tumors: A Surgical Technical Note With a Case Series
Chan Yang NOH ; Il CHOI ; Junsoo JANG
Journal of Minimally Invasive Spine Surgery and Technique 2026;11(1):140-143
Endoscopic spine surgery has rapidly evolved as a minimally invasive technique for treating various spinal pathologies. However, its use in removing epidural metastatic tumors remains insufficiently explored. This video article presents 2 cases utilizing unilateral biportal endoscopic spine surgery for resection of epidural metastatic tumors causing spinal cord compression. The first case involved a 63-year-old woman with metastatic non-small cell lung cancer at T4–5, and the second case an 86-year-old man with prostate cancer metastases at T6–9. Both patients presented with motor weakness (American Spinal Injury Association [ASIA] grade C) and potential spinal instability (SINS [Spinal Instability Neoplastic Scale] score 7). The surgical techniques emphasized precise identification and dissection of the tumor–dura interface to minimize dural injury and bleeding—an essential consideration when managing vascular lesions, particularly under antiplatelet therapy. Both cases achieved complete tumor resection with minimal blood loss (60–90 mL) and operative times of 71 and 109 minutes, respectively. Postoperatively, both patients improved to ASIA grade D and began early radiotherapy, underscoring the advantages of this minimally invasive approach in enabling prompt adjuvant treatment. Endoscopic epidural tumor removal represents a safe and less invasive alternative to open surgery for selected patients, though further long-term evaluation is warranted.
2.Biportal Endoscopic Foramen Magnum Decompression in an Arnold-Chiari Malformation: A Technical Note With a Case Report
Chan Yang NOH ; Il CHOI ; Junsoo JANG
Journal of Minimally Invasive Spine Surgery and Technique 2026;11(1):137-139
Chiari malformation, when accompanied by progressive neurological symptoms or syringomyelia, often necessitates surgical decompression. Although endoscopic spinal surgery continues to advance, its application in foramen magnum decompression remains limited. This video article demonstrates the biportal endoscopic foramen magnum decompression technique for Chiari type I malformation. We present the case of a 19-year-old female patient with progressive headache, motor weakness, and radiological evidence of 7-mm tonsillar descent with C2–7 syringomyelia. She successfully underwent biportal endoscopic foramen magnum decompression with C1 laminectomy. The procedure employed a triportal approach with safe docking on the C2 spinous process, allowing a minimally invasive C1 laminectomy and foramen magnum decompression extended to the suboccipital area. Postoperatively, computed tomography confirmed adequate decompression, and magnetic resonance imaging revealed expansion of the posterior fossa with resolution of tonsillar herniation. The patient experienced no complications or symptom recurrence at the 3-month follow-up. Despite a minor intraoperative–postoperative measurement discrepancy, which highlights the anatomical considerations required to achieve sufficient decompression, this video supports the feasibility of biportal endoscopic surgery. This approach may provide comparable clinical outcomes to conventional open surgery while offering minimally invasive advantages, though long-term follow-up remains essential.
3.Role of p57KIP2 in Stem and Progenitor Leydig Cells of Mouse Testes
Seung Hyun PARK ; Kyung Noh YOON ; Yang XU ; Myung Chan GYE
The World Journal of Men's Health 2025;43(1):174-187
Purpose:
Precise control of proliferation and differentiation of Leydig cells is important for gonadal androgenesis and spermatogenesis. Though cyclin-dependent kinase inhibitors are crucial for cell proliferation and differentiation, their role in the development of early adult Leydig cells (ALCs) remained unanswered. To understand mechanism for ALC development, functional expression of p57KIP2 (cdkn1c) was investigated in the stem Leydig cells (SLCs) and progenitor Leydig cells (PLCs) in mice.
Materials and Methods:
The roles of p57KIP2 in the proliferation, differentiation, apoptosis, and steroidogenesis in SLCs and PLCs were investigated by antibodies and bromodeoxyuridine (BrdU) labeling in the early neonatal testes and p57kip2 siRNA in the isolated SLCs and PLCs. Steroidogenic differentiation of PLCs was examined by progesterone and testosterone production in cell culture.
Results:
From postnatal day (PND) 1 to 14, p57KIP2(+) spindle-shaped cells in the testis interstitium were α-smooth muscle actin (αSMA)(-), a peritubular myoid cells marker, suggesting that they are SLCs and PLCs. Besides, p57KIP2 was also expressed in HSD3β(+) fetal Leydig cells. From PND1 to 14, BrdU(+)/αSMA(-), Ki67(+)/p57KIP2(+), and BrdU(+)/p57KIP2(+) spindle-shaped cells were gradually decreased. From PND1 to 14, p57KIP in the αSMA(-)/p57KIP2(+) cells was peaked at PND7 and decreased thereafter. In THY1(+) isolated SLCs, p57kip2 siRNA significantly increased ki67 and pcna mRNA and pdgfrα mRNA, a differentiation marker and decreased nestin mRNA, a SLC marker. No significant difference in apoptosis related genes mRNA was found after p57kip2 siRNA treatment. In HSD3β(+) PLCs, p57kip2 siRNA increased proapoptotic genes mRNA, annexin V(+) early-apoptotic cells. Importantly, p57kip2 siRNA significantly decreased hsd3β6 and cyp17a1 mRNA and progesterone production.
Conclusions
p57KIP2 may suppress proliferation and support stemness of SLCs. In PLCs, p57KIP2 may suppress apoptosis and potentiate the steroidogenic differentiation.
4.Role of p57KIP2 in Stem and Progenitor Leydig Cells of Mouse Testes
Seung Hyun PARK ; Kyung Noh YOON ; Yang XU ; Myung Chan GYE
The World Journal of Men's Health 2025;43(1):174-187
Purpose:
Precise control of proliferation and differentiation of Leydig cells is important for gonadal androgenesis and spermatogenesis. Though cyclin-dependent kinase inhibitors are crucial for cell proliferation and differentiation, their role in the development of early adult Leydig cells (ALCs) remained unanswered. To understand mechanism for ALC development, functional expression of p57KIP2 (cdkn1c) was investigated in the stem Leydig cells (SLCs) and progenitor Leydig cells (PLCs) in mice.
Materials and Methods:
The roles of p57KIP2 in the proliferation, differentiation, apoptosis, and steroidogenesis in SLCs and PLCs were investigated by antibodies and bromodeoxyuridine (BrdU) labeling in the early neonatal testes and p57kip2 siRNA in the isolated SLCs and PLCs. Steroidogenic differentiation of PLCs was examined by progesterone and testosterone production in cell culture.
Results:
From postnatal day (PND) 1 to 14, p57KIP2(+) spindle-shaped cells in the testis interstitium were α-smooth muscle actin (αSMA)(-), a peritubular myoid cells marker, suggesting that they are SLCs and PLCs. Besides, p57KIP2 was also expressed in HSD3β(+) fetal Leydig cells. From PND1 to 14, BrdU(+)/αSMA(-), Ki67(+)/p57KIP2(+), and BrdU(+)/p57KIP2(+) spindle-shaped cells were gradually decreased. From PND1 to 14, p57KIP in the αSMA(-)/p57KIP2(+) cells was peaked at PND7 and decreased thereafter. In THY1(+) isolated SLCs, p57kip2 siRNA significantly increased ki67 and pcna mRNA and pdgfrα mRNA, a differentiation marker and decreased nestin mRNA, a SLC marker. No significant difference in apoptosis related genes mRNA was found after p57kip2 siRNA treatment. In HSD3β(+) PLCs, p57kip2 siRNA increased proapoptotic genes mRNA, annexin V(+) early-apoptotic cells. Importantly, p57kip2 siRNA significantly decreased hsd3β6 and cyp17a1 mRNA and progesterone production.
Conclusions
p57KIP2 may suppress proliferation and support stemness of SLCs. In PLCs, p57KIP2 may suppress apoptosis and potentiate the steroidogenic differentiation.
5.Role of p57KIP2 in Stem and Progenitor Leydig Cells of Mouse Testes
Seung Hyun PARK ; Kyung Noh YOON ; Yang XU ; Myung Chan GYE
The World Journal of Men's Health 2025;43(1):174-187
Purpose:
Precise control of proliferation and differentiation of Leydig cells is important for gonadal androgenesis and spermatogenesis. Though cyclin-dependent kinase inhibitors are crucial for cell proliferation and differentiation, their role in the development of early adult Leydig cells (ALCs) remained unanswered. To understand mechanism for ALC development, functional expression of p57KIP2 (cdkn1c) was investigated in the stem Leydig cells (SLCs) and progenitor Leydig cells (PLCs) in mice.
Materials and Methods:
The roles of p57KIP2 in the proliferation, differentiation, apoptosis, and steroidogenesis in SLCs and PLCs were investigated by antibodies and bromodeoxyuridine (BrdU) labeling in the early neonatal testes and p57kip2 siRNA in the isolated SLCs and PLCs. Steroidogenic differentiation of PLCs was examined by progesterone and testosterone production in cell culture.
Results:
From postnatal day (PND) 1 to 14, p57KIP2(+) spindle-shaped cells in the testis interstitium were α-smooth muscle actin (αSMA)(-), a peritubular myoid cells marker, suggesting that they are SLCs and PLCs. Besides, p57KIP2 was also expressed in HSD3β(+) fetal Leydig cells. From PND1 to 14, BrdU(+)/αSMA(-), Ki67(+)/p57KIP2(+), and BrdU(+)/p57KIP2(+) spindle-shaped cells were gradually decreased. From PND1 to 14, p57KIP in the αSMA(-)/p57KIP2(+) cells was peaked at PND7 and decreased thereafter. In THY1(+) isolated SLCs, p57kip2 siRNA significantly increased ki67 and pcna mRNA and pdgfrα mRNA, a differentiation marker and decreased nestin mRNA, a SLC marker. No significant difference in apoptosis related genes mRNA was found after p57kip2 siRNA treatment. In HSD3β(+) PLCs, p57kip2 siRNA increased proapoptotic genes mRNA, annexin V(+) early-apoptotic cells. Importantly, p57kip2 siRNA significantly decreased hsd3β6 and cyp17a1 mRNA and progesterone production.
Conclusions
p57KIP2 may suppress proliferation and support stemness of SLCs. In PLCs, p57KIP2 may suppress apoptosis and potentiate the steroidogenic differentiation.
6.Role of p57KIP2 in Stem and Progenitor Leydig Cells of Mouse Testes
Seung Hyun PARK ; Kyung Noh YOON ; Yang XU ; Myung Chan GYE
The World Journal of Men's Health 2025;43(1):174-187
Purpose:
Precise control of proliferation and differentiation of Leydig cells is important for gonadal androgenesis and spermatogenesis. Though cyclin-dependent kinase inhibitors are crucial for cell proliferation and differentiation, their role in the development of early adult Leydig cells (ALCs) remained unanswered. To understand mechanism for ALC development, functional expression of p57KIP2 (cdkn1c) was investigated in the stem Leydig cells (SLCs) and progenitor Leydig cells (PLCs) in mice.
Materials and Methods:
The roles of p57KIP2 in the proliferation, differentiation, apoptosis, and steroidogenesis in SLCs and PLCs were investigated by antibodies and bromodeoxyuridine (BrdU) labeling in the early neonatal testes and p57kip2 siRNA in the isolated SLCs and PLCs. Steroidogenic differentiation of PLCs was examined by progesterone and testosterone production in cell culture.
Results:
From postnatal day (PND) 1 to 14, p57KIP2(+) spindle-shaped cells in the testis interstitium were α-smooth muscle actin (αSMA)(-), a peritubular myoid cells marker, suggesting that they are SLCs and PLCs. Besides, p57KIP2 was also expressed in HSD3β(+) fetal Leydig cells. From PND1 to 14, BrdU(+)/αSMA(-), Ki67(+)/p57KIP2(+), and BrdU(+)/p57KIP2(+) spindle-shaped cells were gradually decreased. From PND1 to 14, p57KIP in the αSMA(-)/p57KIP2(+) cells was peaked at PND7 and decreased thereafter. In THY1(+) isolated SLCs, p57kip2 siRNA significantly increased ki67 and pcna mRNA and pdgfrα mRNA, a differentiation marker and decreased nestin mRNA, a SLC marker. No significant difference in apoptosis related genes mRNA was found after p57kip2 siRNA treatment. In HSD3β(+) PLCs, p57kip2 siRNA increased proapoptotic genes mRNA, annexin V(+) early-apoptotic cells. Importantly, p57kip2 siRNA significantly decreased hsd3β6 and cyp17a1 mRNA and progesterone production.
Conclusions
p57KIP2 may suppress proliferation and support stemness of SLCs. In PLCs, p57KIP2 may suppress apoptosis and potentiate the steroidogenic differentiation.
7.Role of p57KIP2 in Stem and Progenitor Leydig Cells of Mouse Testes
Seung Hyun PARK ; Kyung Noh YOON ; Yang XU ; Myung Chan GYE
The World Journal of Men's Health 2025;43(1):174-187
Purpose:
Precise control of proliferation and differentiation of Leydig cells is important for gonadal androgenesis and spermatogenesis. Though cyclin-dependent kinase inhibitors are crucial for cell proliferation and differentiation, their role in the development of early adult Leydig cells (ALCs) remained unanswered. To understand mechanism for ALC development, functional expression of p57KIP2 (cdkn1c) was investigated in the stem Leydig cells (SLCs) and progenitor Leydig cells (PLCs) in mice.
Materials and Methods:
The roles of p57KIP2 in the proliferation, differentiation, apoptosis, and steroidogenesis in SLCs and PLCs were investigated by antibodies and bromodeoxyuridine (BrdU) labeling in the early neonatal testes and p57kip2 siRNA in the isolated SLCs and PLCs. Steroidogenic differentiation of PLCs was examined by progesterone and testosterone production in cell culture.
Results:
From postnatal day (PND) 1 to 14, p57KIP2(+) spindle-shaped cells in the testis interstitium were α-smooth muscle actin (αSMA)(-), a peritubular myoid cells marker, suggesting that they are SLCs and PLCs. Besides, p57KIP2 was also expressed in HSD3β(+) fetal Leydig cells. From PND1 to 14, BrdU(+)/αSMA(-), Ki67(+)/p57KIP2(+), and BrdU(+)/p57KIP2(+) spindle-shaped cells were gradually decreased. From PND1 to 14, p57KIP in the αSMA(-)/p57KIP2(+) cells was peaked at PND7 and decreased thereafter. In THY1(+) isolated SLCs, p57kip2 siRNA significantly increased ki67 and pcna mRNA and pdgfrα mRNA, a differentiation marker and decreased nestin mRNA, a SLC marker. No significant difference in apoptosis related genes mRNA was found after p57kip2 siRNA treatment. In HSD3β(+) PLCs, p57kip2 siRNA increased proapoptotic genes mRNA, annexin V(+) early-apoptotic cells. Importantly, p57kip2 siRNA significantly decreased hsd3β6 and cyp17a1 mRNA and progesterone production.
Conclusions
p57KIP2 may suppress proliferation and support stemness of SLCs. In PLCs, p57KIP2 may suppress apoptosis and potentiate the steroidogenic differentiation.
8.Safe Ligamentum Flavum Resection via Osteotomy in Biportal Endoscopic Spine Surgery: A Surgical Technical Note With a Case Presentation
Chan Yang NOH ; Il CHOI ; Junsoo JANG
Journal of Minimally Invasive Spine Surgery and Technique 2025;10(2):300-302
Endoscopic spine surgery (ESS) provides minimally invasive treatment options for a wide range of degenerative spinal disorders. However, performing a safe decompressive laminectomy, which is an essential and foundational step in ESS, can be challenging for novice surgeons, especially due to the risk of iatrogenic dural injury during flavectomy. This video article introduces the “crescent osteotomy” technique, which employs a mallet and chisel for controlled, anatomically precise resection of the ligamentum flavum. Although this approach has been adopted by some surgeons, it offers a straightforward and safe method that allows for effective additional laminectomy while facilitating easier flavectomy. The technique intentionally preserves the ligamentum flavum as a protective layer during the critical decompression phase. By doing so, the method reduces the likelihood of accidental dural tears and prevents unnecessary facet violation, making it particularly advantageous for beginning ESS surgeons. A representative case involving an 85-year-old man with L4–5 central stenosis and gait disturbance illustrates its effectiveness, with excellent postoperative neurological recovery and pain relief. The crescent osteotomy technique thus represents a feasible, efficient, and safe surgical option that enhances intraoperative control and optimizes clinical outcomes in ESS.
9.Technical Note: Intraoperative Injection of Indigo Carmine for Differentiating Neural Tissue During Unilateral Biportal Endoscopic Surgery
Woon Tak YUH ; Chan Yang NOH ; Il CHOI ; Junsoo JANG
Journal of Minimally Invasive Spine Surgery and Technique 2025;10(2):313-315
Unilateral biportal endoscopy offers substantial advantages in spinal surgery but continues to carry a risk of neural injury due to the difficulty of distinguishing neural structures from surrounding tissues. This video article demonstrates the intraoperative use of indigo carmine to mitigate this risk. Indigo carmine selectively stains fibrous tissue and disc material while sparing nerve roots, owing to its impermeability to intact cellular membranes. This property enhances visual differentiation and promotes surgical safety. We present 2 cases involving 64-year-old female patients who underwent discectomy for ruptured L5–S1 discs. In both cases, intraoperative injection of indigo carmine into the working field or disc space effectively delineated neural elements from adhesive tissues and disc material. Postoperative imaging confirmed successful decompression. Indigo carmine represents a useful, surgeon-friendly, cost-effective, and time-efficient adjunct that improves visualization and helps prevent iatrogenic neural injury. Its use is particularly recommended for revision surgery, complex degenerative conditions, and for endoscopic spine surgeons in training.
10.Comparison of radiotherapy techniques in patients with thymic epithelial tumor who underwent postoperative radiotherapy
Hyunseok LEE ; Dongryul OH ; Yong Chan AHN ; Hongryull PYO ; Kyungmi YANG ; Jae Myoung NOH
Radiation Oncology Journal 2024;42(1):43-49
Purpose:
This retrospective study aimed to compare clinical outcomes and dosimetric parameters between radiation therapy (RT) techniques in patients with thymic epithelial tumor (TET).
Materials and Methods:
From January 2016 to December 2020, 101 patients with TET received adjuvant RT (median, 52.8 Gy; range, 48.4 to 66.0). Three different RT techniques were compared: three-dimensional conformal RT (3D-CRT; n = 59, 58.4%), intensity-modulated RT (IMRT; n = 23, 22.8%), and proton beam therapy (PBT; n = 19, 18.8%).
Results:
The median age of the patients and the follow-up period were 55 years (range, 28 to 79) and 43.4 months (range, 7.7 to 77.2). Patients in the PBT group were of the youngest age (mean age, 45.4 years), while those in IMRT group had the largest clinical target volume (mean volume, 149.6 mL). Patients in the PBT group had a lower mean lung dose (4.4 Gy vs. 7.6 Gy vs. 10.9 Gy, respectively; p < 0.001), lower mean heart dose (5.4 Gy vs. 10.0 Gy vs. 13.1 Gy, respectively; p = 0.003), and lower mean esophageal dose than patients in the 3D-CRT and IMRT groups (6.3 Gy vs. 9.8 Gy vs. 13.5 Gy, respectively; p = 0.011). Twenty patients (19.8%) showed disease recurrence, and seven patients (6.9%) died. The differences in the survival rates between RT groups were not statistically significant.
Conclusion
In patients with TET who underwent adjuvant RT, PBT resulted in a lower dose of exposure to adjacent organs at risk. Survival outcomes for patients in PBT group were not significantly different from those in other groups.

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