Michael D. Poscente

Rotary in-drilling alignment using an autonomous MEMS-based inertial measurement unit for measurement- while-drilling processes

The severe conditions of the drilling environment greatly limit technical options available to the equipment designer. Some desirable options cannot be used simply because they are too large for the restricted diameters available in drilling tools. Drilling would greatly benefit from inertial navigation solutions, but suitable conventional components cannot be used because of their physical size. This article describes work directed to the provision of improved navigation solutions for MWD applications.

Minimally invasive pseudo-continuous blood glucose monitoring: Results from in-vitro and in-vivo testing of the e-Mosquito

In this paper, we present a wearable microsystem for minimally invasive, autonomous and pseudo-continuous blood glucose monitoring that addresses growing demand for replacing tedious fingerpricking tests for diabetic patients. Unlike the prevalent solutions that estimate blood glucose levels from interstitial fluids or tears, our approach uses a novel wearable microsystem design to extract a whole blood sample from a small lanced s in wound and to directly measure the blood glucose level from it. Both in-vitro and in-vivo testing results illustrate the method.

Transcutaneous Intraluminal Impedance Measurement for Minimally Invasive Monitoring of Gastric Motility: Validation in Acute Canine Models

Transcutaneous intraluminal impedance measurement (TIIM) is a new method to cutaneously measure gastric contractions by assessing the attenuation dynamics of a small oscillating voltage emitted by a battery-powered ingestible capsule retained in the stomach. In the present study, we investigated whether TIIM can reliably assess gastric motility in acute canine models. Methods. Eight mongrel dogs were randomly divided into 2 groups: half received an active TIIM pill and half received an identically sized sham capsule. After 24-hour fasting and transoral administration of the pill (active or sham), two force transducers (FT) were sutured onto the antral serosa at laparotomy. After closure, three standard cutaneous electrodes were placed on the abdomen, registering the transluminally emitted voltage. Thirty-minute baseline recordings were followed by pharmacological induction of gastric contractions using neostigmine IV and another 30-minute recording. Normalized one-minute baseline and post-neostigmine gastric motility indices (GMIs) were calculated and Pearson correlation coefficients (PCCs) between cutaneous and FT GMIs were obtained. Statistically significant GMI PCCs were seen in both baseline and post-neostigmine states. There were no significant GMI PCCs in the sham capsule test. Further chronic animal studies of this novel long-term gastric motility measurement technique are needed before testing it on humans.

Wearable Microsystem for Minimally Invasive, Pseudo-Continuous Blood Glucose Monitoring: The e-Mosquito

This paper presents a wearable microsystem for minimally invasive, autonomous, and pseudo-continuous blood glucose monitoring, addressing a growing demand for replacing tedious fingerpricking tests for diabetic patients. Unlike prevalent solutions which estimate blood glucose levels from interstitial fluids or tears, our design extracts a whole blood sample from a small lanced skin wound using a novel shape memory alloy (SMA)-based microactuator and directly measures the blood glucose level from the sample. In vitro characterization determined that the SMA microactuator produced penetration force of 225 gf, penetration depth of 3.55 mm, and consumed approximately 5.56 mW·h for triggering. The microactuation mechanism was also evaluated by extracting blood samples from the wrist of four human volunteers. A total of 19 out of 23 actuations successfully reached capillary vessels below the wrists producing blood droplets on the surface of the skin. The integrated potentiostat-based glucose sensing circuit of our e-Mosquito device also showed a good linear correlation (R2 = 0.9733) with measurements using standard blood glucose monitoring technology. These proof-of-concept studies demonstrate the feasibility of the e-Mosquito microsystem for autonomous intermittent blood glucose monitoring.

Mo1302 Gastric-Retentive Transcutaneous Intraluminal Impedance Measurement (TIIM): Sham Controlled, Minimally-Invasive Assessment of Gastric Motility in Acute Canine Models

the 2009 dataset for validation. Results: In 2008, there were 53.4 million (95% CI 45.4 million 61.6 million) visits for T2DM. Of these, 658,767 (95% CI 234,319 1,083,215) were for hypoglycemia and 152,751 (95% CI: 0-350,141) were for gastroparesis. When adjusted for payor status, age, gender, comorbidities and medication use, gastroparesis was associated with a significantly lower risk of hypoglycemia. Validation with 2009 data revealed a concordance of 88% between predicted and observed hypoglycemia events. Conclusions: T2DM patient visits with gastroparesis were associated with a significantly lower risk of hypoglycemia compared to those without gastroparesis. Due to sampling design and the rarity of gastroparesis, there were very few sampled visits with gastroparesis, resulting in large confidence intervals. Thus, the results need to be confirmed in larger samples. Another limitation is that these analyses are based on cross-sectional data and laboratory confirmation of hypogyemia was not available. While gastoparesis is often associated with labile glycemic control, these results are consistent with the mechanism of action of GLP-1 receptor agonists, which blunt postprandial hyperglycemia by slowing gastric emptying without causing hypoglycemia.

Enhanced electrogastrography: A realistic way to salvage a promise that was never kept?

AIM To enhance the clinical utility of electrogastrography (EGG), which has been recorded since 1922, but is clinically unutilized. METHODS An innovative method to salvage the promise of EGG is proposed by introducing a preliminary procedure, while maintaining the electrodes, standardized equipment, and signal processing utilized in the well-established EGG testing of today. The proposed enhanced EGG (EEGG) protocol involves swallowing an ingestible capsule containing miniature electronic oscillator embedded in an expandable, self-disintegratable, biocompatible pseudobesoar residing in the stomach for the duration of the test. The benefits of the proposed approach are outlined, tested and discussed in details. RESULTS Experiments were performed on eight mongrel dogs (6F, 4M, 23.8 ± 3.3 kg). Four were administered an active EEGG capsule, while the rest were given a deactivated (battery removed) capsule. Pharmacologically facilitated gastric motility revealed a significant (P < 0.01) Pearson correlation between gastric motility indices obtained by force transducers implanted directly on the stomach, and the motility indices obtained by EEGG. A particular emphasis was made on preserving standard EGG-related hardware and software in order to facilitate the introduction of the proposed EEGG in environments which already utilize standard EGG testing. The expanded intragastric pseudobezoar containing the miniature electronic oscillator was retained during the tests, and could be disintegrated on demand. CONCLUSION Enhancing standard EGG by an ingestible, self-expanding and self-disintegrating pseudobesoar containing a miniature electronic oscillator can be an important avenue for clinical applicability of this test.