The “Agnes Fast”* Craniotomy: The Modified Pterional (Osteoplastic) Craniotomy

The “Agnes Fast” craniotomy is a fast and simple way of performing the pterional craniotomy while preserving the temporalis muscle, together with its fascia and bony attachment. Using this technique, the surgeon need not divide the temporalis muscle, separate it from its bony attachment, or perform an interfacial dissection. With a little practice, this craniotomy can be performed in less than 5 minutes and is highly recommended in emergent settings. The modified pterional craniotomy was performed in 10 cadaveric specimens, preserving the temporalis muscle with its attachment. An interfascial dissection was not performed while exposing the frontozygomatic process. The exposure gained, the length of the procedure, and the ease of application were recorded for all heads studied. In all heads studied, the Agnes Fast craniotomy was performed, with complete preservation of the temporalis muscle and its attachments. This procedure was performed quickly, with complete preservation of the fascial nerve and its branches. The muscle was put back in its natural place following the craniotomy. The Agnes Fast craniotomy offers a fast way of performing a pterional craniotomy while preserving the temporalis muscle, with its blood supply, neural innervation, bony attachment, and fascia intact. Replacing the muscle is also fast and simple and involves placement of two CranioFix (Aesculap, Inc., Center Valley, PA) holders to the bone, with no suture material. This approach does not limit the exposure gained and offers the same exposure as the “usual” pterional craniotomy

Petrous Carotid Exposure with Eustachian Tube Preservation: A Morphometric Elucidation

Inadvertent injury to eustachian tube leading to cerebrospinal fluid rhinorrhea is a known complication associated with drilling of Glasscock's triangle to expose the horizontal petrous internal carotid artery (ICA) for management of difficult tumors (especially malignant) or aneurysms at the cranial base. Contrary to the usual approach, we hypothesize that a “medial-to-lateral” approach to Glasscock's triangle drilling will minimize eustachian tube injury. Four formalin-fixed human cadaveric heads were dissected, and underwent appropriate morphometric analysis; yielding a total of eight datasets. The diameter of the horizontal petrous ICA exposed was 4.7 ± 0.9 mm (range, 3.8 to 5.6 mm).The mean distance from the medial carotid wall midpoint to the medial-most point on the eustachian tube was 6.35 ± 0.58 mm (range, 5.4 to 7.1 mm), yielding a “safety zone” for eustachian tube, ranging 0.2 to 1.9 mm lateral to the lateral carotid wall. With the medial-to-lateral approach, the eustachian tube remained preserved in all the specimens. The results of our study provide a practical, consistent, and safe method of maximizing horizontal petrous carotid artery exposure while minimizing the eustachian tube injury

MOESM1 of A non-aggressive, highly efficient, enzymatic method for dissociation of human brain-tumors and brain-tissues to viable single-cells

Additional file 1: Figure S1. Grading of dissociation quality of all glial tumors. The three different parameters accounting for the dissociation cumulative grade-CG, i.e. Clumps, Remnants and Gooeyness, were graded following tumor dissociation using NP -2hr, dispase- 1hr, NP-ON and dispase-ON. The parameters were graded from 1 to 3, with 1 representing low dissociation quality and 3- high dissociation quality culture (see materials and methods). Statistics: Cell remnants following dissociation using NP-2hr to dispase-1hr (P < 0.03)