Saddle block anesthetic technique for benign outpatient anorectal surgery.

BACKGROUND: Current American Society of Colorectal Surgery Clinical Practice Guidelines for Ambulatory Anorectal Surgery endorse use of monitored anesthesia care, general anesthesia, or spinal anesthesia based on physician and patient preference. Although several studies support the use of monitored anesthesia care over general anesthesia, the literature regarding spinal anesthesia is limited and heterogenous due to small sample sizes and disparate spinal anesthesia techniques. Saddle block anesthesia is a form of spinal anesthesia that localizes to the lowermost sacral spinal segments allowing for preservation of lower extremity motor function and faster recovery. We accrued one of the largest reported cohort of anorectal procedures using saddle block anesthesia, as such, we sought to evaluate our institutional 12-year experience. METHODS: Patients who underwent a benign anorectal procedure at our outpatient surgery center between July 2008-2020 were retrospectively reviewed. Demographics, surgical factors, perioperative times, and adverse events were collected from the electronic medical records. Saddle block anesthesia was generally performed in the preoperative area using a spinal needle (25-27 gauge) and a single injection technique of a 1:1 ratio local anesthetic mixed with 10% dextrose solution. Between 2.5-5 mg of hyperbaric anesthetic was injected intrathecally in the sitting position and the patient remained upright for 3-10 minutes. This technique of saddle block anesthesia provides analgesia for approximately 1-3 hours. RESULTS: In the study, 859 saddle block anesthesia patients were identified, with a mean age of 44.6 years and American Society of Anesthesia score of 1.9; 609 (70.9%) were male. Surgical indications included lesion removal (27.1%), anal fistula (25.8%), hemorrhoidectomy (24.7%), pilonidal disease (6.3%), anal fissure (5.8%), and a combination of prior (10.2%). Prone jackknife positioning was used in 91.6% of procedures. Saddle block anesthesia most often was performed with bupivacaine (48.9%) or ropivacaine (41.7%). The median procedural saddle block anesthesia time was 11 minutes, surgery time was 17 minutes, anesthesia time was 42 minutes, and recovery time was 91 minutes. Patients spent a median of 3 hours and 53 minutes in the facility. Adverse events included urinary retention (1.9%), conversion to general anesthesia (1.8%), spinal headache (1.5%), hemodynamic instability (0.9%), and injection site reaction (0.3%). CONCLUSION: Demonstrated using the largest known cohort of anorectal patients with saddle block anesthesia, saddle block anesthesia provides an effective method of analgesia to avoid general anesthesia with a low rate of adverse events.

Influence of alpha-adrenergic blockade on the catecholamine response to exercise at 4,300 meters.

This investigation examined the influence of alpha-adrenergic blockade on plasma and urinary catecholamine responses to both exercise and high-altitude exposure. Sixteen nonsmoking, eumenorrheic women (age 23.2 +/- 1.4 years, 68.7 +/- 1.0 kg) were studied at sea level and during 12 days of high-altitude exposure (4,300 m). Subjects received either alpha-blockade (prazosin 3 mg/d) or a placebo in a double-blinded, randomized fashion. Resting plasma and 24-hour urine samples were collected periodically throughout the duration of the study. Further, subjects participated in submaximal exercise tests (50 minutes at 50% sea level maximum oxygen consumption [Vo2max]) at Sea level and on days 1 and 12 at altitude. Urinary norepinephrine (NE) excretion rates increased significantly over time at altitude, with blocked subjects having greater values compared to controls. Plasma NE levels increased significantly with chronic altitude exposure compared to sea level and acute hypoxia both at rest and during exercise. NE levels at rest were greater for blocked compared to control subjects during all conditions. Urinary and plasma epinephrine (EPI) levels increased dramatically, with acute altitude exposure returning to sea level values by day 12 of altitude exposure. EPI levels were greater for blocked compared to placebo both at rest and during exercise for all conditions studied. Changes in alpha-adrenergic activity over time at altitude were associated with select metabolic and physiologic adjustments. The presence of alpha-blockade significantly affected these responses during chronic altitude exposure. It was concluded that: (1) alpha-adrenergic blockade elicited a potentiated sympathoadrenal response to the stress of both exercise as well as high-altitude exposure, and (2) the sympathetics, via alpha-adrenergic stimulation, contribute to a number of key adaptations associated with acclimatization to high altitude.

Five weeks of insulin-like growth factor-I treatment does not alter glucose kinetics or insulin sensitivity during a hyperglycemic clamp in older women.

Insulin sensitivity and the activity of the hypothalamic-growth hormone (GH)- insulin-like growth factor-I (IGF-I) axis both decline with age. Treatment with IGF-I increases insulin sensitivity in healthy young subjects. We hypothesized that increasing plasma IGF-I in postmenopausal women to levels characteristic of young women would enhance insulin sensitivity. To test the hypothesis, fasting glucose kinetics and insulin sensitivity were measured in 24 healthy, normoglycemic, postmenopausal women before and after 5 weeks of treatment with either recombinant human (rh)IGF-I (15 microg/kg body weight/d twice daily) or placebo in a double-blind study. Diet energy content and composition were rigidly controlled to maintain energy balance. A hyperglycemic clamp (8 mmol/L) coupled with stable isotope infusion ([6,6(2)H]glucose) was performed before and after treatment to assess whole-body insulin sensitivity; defined as the glucose rate of disappearance (Rd) or rate of infusion (GRIF) scaled to the steady-state insulin concentration (I). There were no differences in fasting glucose or insulin concentrations, glucose kinetics, or glucose oxidation after either treatment. During the clamps, steady-state insulin concentrations with placebo (pre = 151 +/- 28 pmol/L, post = 173 +/- 31 pmol/L) were slightly different than with IGF-I (pre = 182 +/- 37 pmol/L, post = 163 +/- 33 pmol/L), but the variations were not significant. No significant changes in whole-body insulin sensitivity were observed after treatment with IGF-I, calculated as Rd/I (pre = 17.7 +/- 2.6 microg/kg/min/pmol/L, post = 19.3 +/- 2.0 microg/kg/min/pmol/L for IGF-I v pre = 24.2 +/- 2.5 microg/kg/min/pmol/L, post = 22.8 +/- 3.4 microg/kg/min/pmol/L for placebo) or as GRIF/I (pre = 18.0 +/- 3.9 microg/kg/min/pmol/L, post = 22.3 +/- 3.5 microg/kg/min/pmol/L for IGF-I v pre = 26.4 +/- 6.2 microg/kg/min/pmol/L, post = 26.9 +/- 4.8 microg/kg/min/pmol/L for placebo). Baseline insulin sensitivity in women using hormone replacement therapy (HRT, n = 15) was similar to nonusers (n = 9), but HRT users derived a greater portion of energy expenditure from carbohydrate oxidation compared with nonusers. HRT use had no impact on the response to IGF-I. Overall, we observed subtle, but physiologically insignificant, variations after IGF-I treatment in the direction of enhanced insulin sensitivity. The data suggest that 5 weeks of low-dose rhIGF-I treatment has no material influence on whole-body insulin sensitivity in normoglycemic postmenopausal women.

Speech motor control and acute mountain sickness.

BACKGROUND: An objective method that accurately quantifies the severity of Acute Mountain Sickness (AMS) symptoms is needed to enable more reliable evaluation of altitude acclimatization and testing of potentially beneficial interventions. HYPOTHESIS: Changes in human articulation, as quantified by timed variations in acoustic waveforms of specific spoken words (voice onset time; VOT), are correlated with the severity of AMS. METHODS: Fifteen volunteers were exposed to a simulated altitude of 4300 m (446 mm Hg) in a hypobaric chamber for 48 h. Speech motor control was determined from digitally recorded and analyzed timing patterns of 30 different monosyllabic words characterized as voiced and unvoiced, and as labial, alveolar, or velar. The Environmental Symptoms Questionnaire (ESQ) was used to assess AMS. RESULTS: Significant AMS symptoms occurred after 4 h, peaked at 16 h, and returned toward baseline after 48 h. Labial VOTs were shorter after 4 and 39 h of exposure; velar VOTs were altered only after 4 h; and there were no changes in alveolar VOTs. The duration of vowel sounds was increased after 4 h of exposure and returned to normal thereafter. Only 1 of 15 subjects did not increase vowel time after 4 h of exposure. The 39-h labial (p = 0.009) and velar (p = 0.037) voiced-unvoiced timed separations consonants and the symptoms of AMS were significantly correlated. CONCLUSIONS: Two objective measures of speech production were affected by exposure to 4300 m altitude and correlated with AMS severity. Alterations in speech production may represent an objective measure of AMS and central vulnerability to hypoxia.