Hadamard Transform Imaging

transcript

Paul Holcomb

Tasha Nalywajko

Melissa Walden

Problem Definition

• Current 3D imaging systems for brain surgery are too slow and possess too low of a resolution to be effective in an operating room setting

Why is this important?

• 71% mortality rate for diagnosed brain tumors

• Correlation between complete resectioning of tumors and improved prognosis

• Complete resectioning requires knowing the location of the tumor, especially tumor margins

• Imaging in a clinical setting should be fast• Operating room billed by the quarter- or

half hour

Cost/Benefit Analysis

• Treatment costs:– OR cost: $10K - $15K

per surgery (depending on length)

– ICU: $1963/24 hrs– Floor: $779/24 hrs– Chemotherapy– Radiation therapy

Cost Reduction:

• Shorter surgeries• Less time in hospital (ICU or

floor)• Less post-surgical treatment

required

http://rds.yahoo.com/S=96062857/K=money/v=2/SID=e/l=II/R=7/SS=i/OID=b6c164c7d41a78bc/SIG=1h3ag3ujh/EXP=1106106268/*-http%3A//images.search.yahoo.com/search/images/view?back=http%3A%2F%2Fimages.search.yahoo.com%2Fsearch%2Fimages%3Fp%3Dmoney%26ei%3DUTF-8%26fr%3DFP-tab-web-t%26fl%3D0%26x%3Dwrt&h=510&w=399&imgcurl=se008.k12.sd.us%2FImages%2FMoney%2520Bag%2520with%2520Dollar%2520Sign.jpg&imgurl=se008.k12.sd.us%2FImages%2FMoney%2520Bag%2520with%2520Dollar%2520Sign.jpg&size=49.7kB&name=Money%20Bag%20with%20Dollar%20Sign.jpg&rcurl=http%3A%2F%2Fse008.k12.sd.us%2FImages&rurl=http%3A%2F%2Fse008.k12.sd.us%2FImages&p=money&type=jpeg&no=7&tt=1,060,248

Design Criteria

• Must produce an image in real time

• Must accurately reproduce area of interest in the brain

• Must distinguish healthy versus tumor tissue

• Must be small enough to be usable in an operating room setting

• Must interface with operating microscope

Design Objective

Construct imaging system using digital micro-mirror device and Hadamard transform for use with operating microscope in a clinical setting

System Design

Hadamard Transform

• Decreased imaging time

• Increased SNR Hadamard Matrix Definition

Inverse Hadamard Transform

Digital Micro-mirror Device

• Allows use of Hadamard Transform

Fourier vs. Hadamard Imaging

Wuttig and Riesenburg, “Sensitive Hadamard Transform Imaging Spectrometer”

SNR Increase with Hadamard: √n

SNR Increase with S-Matrix: (√n)/2

System Diagram

Collect and collimate

reflected light

Illuminate sample with white light

http://rds.yahoo.com/S=96062857/K=lightbulb/v=2/SID=e/l=II/R=18/SS=p/OID=3941f9775b58d1a2/SIG=1gkvg6p14/EXP=1108092175/*-http%3A//images.search.yahoo.com/search/images/view?back=http%3A%2F%2Fimages.search.yahoo.com%2Fsearch%2Fimages%3Fp%3Dlightbulb%26ei%3DUTF-8%26fr%3DFP-tab-web-t-194%26fl%3D0%26x%3Dwrt&h=75&w=50&imgcurl=www.biosci.ohio-state.edu%2F%7Ejsmith%2Flightbulb.gif&imgurl=www.biosci.ohio-state.edu%2F%7Ejsmith%2Flightbulb.gif&size=9.4kB&name=lightbulb.gif&rcurl=http%3A%2F%2Fwww.biosci.ohio-state.edu%2F%7Ejsmith%2Fsafety&rurl=http%3A%2F%2Fwww.biosci.ohio-state.edu%2F%7Ejsmith%2Fsafety&p=lightbulb&type=gif&no=18&tt=12,291

System Diagram

Decrease image size to fit within 512 x 512 matrix

Magnification:~0.4

System Diagram

Apply Hadamard matrix using

DMD

1

1-1

-1

1

-1

Compress image to 160um line

Disperse light spectrally using

spectrograph and collect image

using CCD camera

Apply inverse Hadamard

transform using computer

X

YSpectrum

System Diagram

System Output

Design Timeline

February: Align and test Stage 1; align DMD; align and test

Stage 2

March: Insert, align, and test spectrograph; test system

using reflectance standard to determine SNR; test

system using normal and tumor tissue samples

April: Continue testing and analysis; compile and present

findings at Senior Design Day

Hadamard Transform Imaging

Documents